Datasets:

crumbly
/

tinycode-a

Dataset card Data Studio Files Files and versions Community

Split (1)

train · 1.12M rows

content stringlengths 7 1.05M
# # PySNMP MIB module TPLINK-TC-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/TPLINK-TC-MIB # Produced by pysmi-0.3.4 at Mon Apr 29 21:16:42 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # OctetString, Integer, ObjectIdentifier = mibBuilder.importSymbols("ASN1", "OctetString", "Integer", "ObjectIdentifier") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ConstraintsIntersection, ConstraintsUnion, ValueSizeConstraint, SingleValueConstraint, ValueRangeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "ConstraintsUnion", "ValueSizeConstraint", "SingleValueConstraint", "ValueRangeConstraint") NotificationGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ModuleCompliance") iso, TimeTicks, MibScalar, MibTable, MibTableRow, MibTableColumn, Integer32, ModuleIdentity, IpAddress, MibIdentifier, NotificationType, ObjectIdentity, Gauge32, Bits, Counter32, Counter64, Unsigned32 = mibBuilder.importSymbols("SNMPv2-SMI", "iso", "TimeTicks", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "Integer32", "ModuleIdentity", "IpAddress", "MibIdentifier", "NotificationType", "ObjectIdentity", "Gauge32", "Bits", "Counter32", "Counter64", "Unsigned32") DisplayString, TextualConvention = mibBuilder.importSymbols("SNMPv2-TC", "DisplayString", "TextualConvention") class TPRowStatus(TextualConvention, Integer32): status = 'current' subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 4, 6)) namedValues = NamedValues(("active", 1), ("createAndGo", 4), ("destroy", 6)) class TPMacAddress(TextualConvention, OctetString): status = 'current' displayHint = '1x-1x-1x-1x-1x-1x' subtypeSpec = OctetString.subtypeSpec + ValueSizeConstraint(6, 6) fixedLength = 6 mibBuilder.exportSymbols("TPLINK-TC-MIB", TPMacAddress=TPMacAddress, TPRowStatus=TPRowStatus)
# -- coding: utf-8 -- """Svante -- configurable Arrhenius plots and fits. \b For complete help visit https://github.com/hydrationdynamics/svante \b License: BSD-3-Clause Copyright © 2021, GenerisBio LLC. All rights reserved. """ # noqa: D301
# Time: O((m + n)^2) # Space: O((m + n)^2) class Solution(object): def longestPalindrome(self, word1, word2): """ :type word1: str :type word2: str :rtype: int """ s = word1+word2 dp = [[0]len(s) for _ in xrange(len(s))] result = 0 for j in xrange(len(s)): dp[j][j] = 1 for i in reversed(xrange(j)): if s[i] == s[j]: dp[i][j] = 2 if i+1 == j else dp[i+1][j-1] + 2 if i < len(word1) <= j: result = max(result, dp[i][j]) else: dp[i][j] = max(dp[i+1][j], dp[i][j-1]) return result # Time: O((m + n)^2) # Space: O((m + n)^2) class Solution2(object): def longestPalindrome(self, word1, word2): """ :type word1: str :type word2: str :rtype: int """ s = word1+word2 dp = [[0]len(s) for _ in xrange(len(s))] for j in xrange(len(s)): dp[j][j] = 1 for i in reversed(xrange(j)): if s[i] == s[j]: dp[i][j] = 2 if i+1 == j else dp[i+1][j-1] + 2 else: dp[i][j] = max(dp[i+1][j], dp[i][j-1]) return max([dp[i][j] for i in xrange(len(word1)) for j in xrange(len(word1), len(s)) if s[i] == s[j]] or [0])
# Author : Guru prasad Raju ''' This program will print index of each characters in the string''' def givenString(new_string): for i in range(len(new_string)): print("index[", i, "]", new_string[i]) givenString("Life")
[ ## this file was manually modified by jt { 'functor' : { 'description' :['This function is mainly for inner usage and allows', 'speedy writing of \c next, \c nextafter and like functions','\par', 'It transforms a floating point value in a pattern of bits', 'stored in an integer with different formulas according to', 'the floating point sign (it is the converse of bitfloating)'], 'return' : ['always an integer value'], 'module' : 'boost', 'arity' : '1', 'call_types' : [], 'ret_arity' : '0', 'rturn' : { 'default' : 'typename boost::dispatch::meta::as_integer<T>::type', }, 'simd_types' : ['real_'], 'type_defs' : [], 'types' : ['real_'], }, 'info' : 'manually modified', 'unit' : { 'global_header' : { 'first_stamp' : 'modified by jt the 04/12/2010', 'included' : ['#include <boost/simd/include/functions/bitfloating.hpp>', '#include <boost/dispatch/meta/as_integer.hpp>'], 'no_ulp' : 'True', 'notes' : [], 'stamp' : 'modified by jt the 12/12/2010', }, 'ranges' : { 'real_' : [['T(-10)', 'T(10)']], }, 'specific_values' : { }, 'verif_test' : { 'property_call' : { 'default' : ['boost::simd::bitfloating(boost::simd::bitinteger(a0))'], }, 'property_value' : { 'default' : ['a0'], }, 'ulp_thresh' : { 'default' : ['0'], }, }, }, 'version' : '0.1', }, ]
# -- coding: utf-8 -- class BaseError(Exception): """ There was an exception that occurred while handling BaseImage""" def __init__(self, message="", args, *kwargs): self.message = message def __repr__(self): return repr(self.message) class NoImageDataError(BaseError): """ No Image Data in variable""" class WriteImageError(BaseError): """ An error occurred while writing """ class TransformError(BaseError): """ An error occurred while transform Image Data to gpu/cpu """ class ReadImageError(BaseError): """ An error occurred while Read Image """
def make_instance(cls): def get_value(name): if name in attributes: return attributes[name] else: value = cls['get'](name) return bind_method(value, instance) def set_value(name, value): attributes[name] = value attributes = {} instance = {'get': get_value, 'set': set_value} return instance def bind_method(value, instance): if callable(value): def method(args): return value(instance, args) return method else: return value def make_class(attributes, base_class=None): def get_value(name): if name in attributes: return attributes[name] elif base_class is not None: return base_class['get'](name) def set_value(name, value): attributes[name] = value def new(args): return init_instance(cls, args) cls = {'get': get_value, 'set': set_value, 'new': new} return cls def init_instance(cls, args): instance = make_instance(cls) init = cls['get']('__init__') if init: init(instance, args) return instance def sayHello(): print("Hello") def appleInit(target, size): target['set']('size', size) print("Initing") appleCls = make_class({'size': 30, '__init__': appleInit}) apple = appleCls['new'](300) print("apple size:", apple['get']('size')) def make_account_class(): """Return the Account class, which has deposit and withdraw methods.""" interest = 0.02 def __init__(self, account_holder): self['set']('holder', account_holder) self['set']('balance', 0) def deposit(self, amount): """Increase the account balance by amount and return the new balance.""" new_balance = self['get']('balance') + amount self['set']('balance', new_balance) return self['get']('balance') def withdraw(self, amount): """Decrease the account balance by amount and return the new balance.""" balance = self['get']('balance') if amount > balance: return 'Insufficient funds' self['set']('balance', balance - amount) return self['get']('balance') print(locals()) return make_class(locals()) Account = make_account_class() kirk_account = Account['new']('Kirk') kirk_account['get']('interest') kirk_account['get']('deposit')(20) kirk_account['get']('withdraw')(5)
# -- coding: utf-8 -- def mean(x): return sum(x) / len(x)
""" Good morning! Here's your coding interview problem for today. This problem was asked by Square. Assume you have access to a function toss_biased() which returns 0 or 1 with a probability that's not 50-50 (but also not 0-100 or 100-0). You do not know the bias of the coin. Write a function to simulate an unbiased coin toss. https://github.com/nootfly/CodeMoments/blob/master/2018/unbiased-fun.md """ def toss_unbiased(): while true: v1 = toss_biased() v2 = toss_biased() if v1 != v2: return v1
""" * Edge Detection. * * Exposing areas of contrast within an image * by processing it through a high-pass filter. """ kernel = (( -1, -1, -1 ), ( -1, 9, -1 ), ( -1, -1, -1 )) size(200, 200) img = loadImage("house.jpg") # Load the original image image(img, 0, 0) # Displays the image from point (0,0) img.loadPixels(); # Create an opaque image of the same size as the original edgeImg = createImage(img.width, img.height, RGB) # Loop through every pixel in the image. for y in range(1, img.height-1): # Skip top and bottom edges for x in range(1, img.width-1): # Skip left and right edges sum = 0 # Kernel sum for this pixel for ky in (-1, 0, 1): for kx in (-1, 0, 1): # Calculate the adjacent pixel for this kernel point pos = (y + ky)img.width + (x + kx) # Image is grayscale, red/green/blue are identical val = red(img.pixels[pos]) # Multiply adjacent pixels based on the kernel values sum += kernel[ky+1][kx+1] val # For this pixel in the new image, set the gray value # based on the sum from the kernel edgeImg.pixels[y*img.width + x] = color(sum) # State that there are changes to edgeImg.pixels[] edgeImg.updatePixels() image(edgeImg, 100, 0) # Draw the new image
# Copyright 2014-2018 The PySCF Developers. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. ''' NIST physical constants https://physics.nist.gov/cuu/Constants/ https://physics.nist.gov/cuu/Constants/Table/allascii.txt ''' LIGHT_SPEED = 137.03599967994 # http://physics.nist.gov/cgi-bin/cuu/Value?alph # BOHR = .529 177 210 92(17) e-10m # http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0 BOHR = 0.52917721092 # Angstroms BOHR_SI = BOHR * 1e-10 ALPHA = 7.2973525664e-3 # http://physics.nist.gov/cgi-bin/cuu/Value?alph G_ELECTRON = 2.00231930436182 # http://physics.nist.gov/cgi-bin/cuu/Value?gem E_MASS = 9.10938356e-31 # kg https://physics.nist.gov/cgi-bin/cuu/Value?me AVOGADRO = 6.022140857e23 # https://physics.nist.gov/cgi-bin/cuu/Value?na ATOMIC_MASS = 1e-3/AVOGADRO PROTON_MASS = 1.672621898e-27 # kg https://physics.nist.gov/cgi-bin/cuu/Value?mp PROTON_MASS_AU = PROTON_MASS/ATOMIC_MASS BOHR_MAGNETON = 927.4009994e-26 # J/T http://physics.nist.gov/cgi-bin/cuu/Value?mub NUC_MAGNETON = BOHR_MAGNETON * E_MASS / PROTON_MASS PLANCK = 6.626070040e-34 # Js http://physics.nist.gov/cgi-bin/cuu/Value?h HBAR = PLANCK/(23.141592653589793) # https://physics.nist.gov/cgi-bin/cuu/Value?hbar #HARTREE2J = 4.359744650e-18 # J https://physics.nist.gov/cgi-bin/cuu/Value?hrj HARTREE2J = HBAR*2/(E_MASSBOHR_SI*2) HARTREE2EV = 27.21138602 # eV https://physics.nist.gov/cgi-bin/cuu/Value?threv E_CHARGE = 1.6021766208e-19 # C https://physics.nist.gov/cgi-bin/cuu/Value?e LIGHT_SPEED_SI = 299792458 # https://physics.nist.gov/cgi-bin/cuu/Value?c DEBYE = 3.335641e-30 # Cm = 1e-18/LIGHT_SPEED_SI https://cccbdb.nist.gov/debye.asp AU2DEBYE = E_CHARGE * BOHR1e-10 / DEBYE # 2.541746 AUEFG = 9.71736235660e21 # V/m^2 https://physics.nist.gov/cgi-bin/cuu/Value?auefg AU2TESLA = HBAR/(BOHR_SI2 E_CHARGE) BOLTZMANN = 1.38064852e-23 # J/K https://physics.nist.gov/cgi-bin/cuu/Value?k HARTREE2WAVENUMBER = 1e-2 * HARTREE2J / (LIGHT_SPEED_SI * PLANCK) # 2.194746313702e5
class Agent(object): standard_key_list = [] def __init__(self, env, config, model=None): self.env = env self.config = config self.model = model self.state = None self.action = None self.reward = None self.reward_list = None pass def observe(self, args, kwargs): pass def predict(self, args, *kwargs): pass def update(self, args, *kwargs): pass def play(self, args, **kwargs): pass
# Beer brands that are not craft beers MAINSTREAM_BEER_BRANDS = { 'abc', 'anchor', 'asahi', 'budweiser', 'carlsberg', 'erdinger', 'guinness', 'heineken', 'hoegaarden', 'kirin', 'krausebourg' 'kronenbourg', 'royal stout', 'sapporo', 'skol', 'somersby', 'strongbow', 'tiger', } # Keywords for non-beer items such as merchandizes or keg SKIPPED_ITEMS = { 'cap', 'gift', 'glass', 'keg', 'litre', 'tee', }
class GEOLibError(Exception): """Base GEOLib Exception class.""" class CalculationError(GEOLibError): """CalculationError with a status_code.""" def __init__(self, status_code, message): self.status_code = status_code self.message = message class ParserError(GEOLibError): """Base class for Parser errors.""" class GEOLibNotImplementedError(GEOLibError, NotImplementedError): """Base class for not implemented abstract classes.""" NotConcreteError = GEOLibNotImplementedError("Should be implemented in concrete class.")
# Conta ocorrências de a # Faça uma função que recebe uma string e retorna o número de vezes em que a letra 'a' aparece nela. # O nome da sua função deve ser conta_a. def conta_a (text): return text.count("a")
class History(object): def __init__(self, intensity=2): self.hist = [] self.read_count = 0 self.intensity = intensity def __len__(self): return len(self.hist) def add(self, solution): self.hist.append(solution) def get(self): self.read_count += 1 if self.read_count % self.intensity != 0: res = self.hist[-1] self.hist = self.hist[:-1] else: res = self.hist[0] self.hist = self.hist[1:] return res
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127), (112, 131), (112, 134), (113, 68), (113, 71), (113, 72), (113, 73), (113, 74), (113, 75), (113, 76), (113, 78), (113, 83), (113, 85), (113, 92), (113, 94), (113, 95), (113, 96), (113, 97), (113, 98), (113, 99), (113, 100), (113, 103), (113, 105), (113, 106), (113, 108), (113, 128), (113, 129), (113, 133), (114, 67), (114, 69), (114, 70), (114, 71), (114, 72), (114, 73), (114, 74), (114, 75), (114, 77), (114, 84), (114, 92), (114, 101), (114, 105), (114, 108), (114, 124), (114, 126), (114, 127), (114, 131), (114, 133), (115, 70), (115, 71), (115, 76), (115, 93), (115, 95), (115, 96), (115, 97), (115, 98), (115, 99), (115, 101), (115, 105), (115, 106), (115, 109), (115, 126), (115, 128), (115, 129), (115, 130), (115, 132), (116, 68), (116, 71), (116, 72), (116, 73), (116, 75), (116, 106), (116, 109), (116, 127), (116, 129), (116, 130), (116, 132), (117, 69), (117, 71), (117, 106), (117, 109), (117, 126), (117, 128), (117, 129), (117, 130), (117, 132), (118, 106), (118, 110), (118, 126), (118, 128), (118, 129), (118, 130), (118, 132), (119, 106), (119, 110), (119, 125), (119, 127), (119, 128), (119, 129), (119, 130), (119, 132), (120, 107), (120, 109), (120, 112), (120, 124), (120, 132), (121, 110), (121, 113), (121, 122), (121, 124), (121, 125), (121, 126), (121, 127), (121, 128), (121, 129), (121, 130), (121, 132), (122, 120), (122, 132), ) coordinates_FEDAB9 = ((127, 67), (128, 67), (128, 68), (129, 66), (129, 69), (130, 66), (130, 69), (131, 66), (131, 68), (131, 70), (132, 67), (132, 72), (133, 68), (133, 70), (133, 73), (133, 75), (134, 72), (134, 76), (135, 72), (135, 74), (135, 76), (136, 69), (136, 71), (136, 72), (136, 73), (136, 75), (137, 69), (137, 72), (137, 74), (138, 68), (138, 70), (138, 73), (139, 67), (139, 69), (139, 70), (139, 71), (139, 72), (140, 67), (140, 69), (140, 71), (141, 67), (141, 70), (141, 83), (141, 85), (142, 67), (142, 70), (142, 78), (142, 80), (142, 81), (142, 82), (142, 87), (142, 89), (143, 68), (143, 71), (143, 77), (143, 83), (143, 84), (143, 85), (143, 86), (143, 87), (143, 89), (144, 68), (144, 70), (144, 73), (144, 74), (144, 75), (144, 78), (144, 82), (145, 69), (145, 80), (146, 70), (146, 72), (146, 73), (146, 74), (146, 78), (147, 75), ) coordinates_01CED1 = ((144, 90), (145, 84), (145, 86), (145, 87), (145, 88), (145, 90), (146, 82), (146, 85), (146, 86), (146, 87), (146, 89), (147, 80), (147, 83), (148, 78), (148, 82), (149, 76), (149, 80), (149, 82), (150, 75), (150, 77), (150, 78), (150, 79), (150, 80), (150, 82), (151, 74), (151, 76), (151, 77), (151, 78), (151, 79), (151, 80), (151, 81), (151, 82), (151, 84), (152, 73), (152, 75), (152, 76), (152, 77), (152, 78), (152, 79), (152, 80), (152, 81), (152, 82), (153, 73), (153, 75), (153, 76), (153, 77), (153, 78), (153, 79), (153, 80), (153, 81), (153, 82), (153, 84), (154, 73), (154, 75), (154, 76), (154, 77), (154, 78), (154, 79), (154, 80), (154, 81), (154, 82), (154, 84), (155, 73), (155, 75), (155, 76), (155, 77), (155, 78), (155, 79), (155, 80), (155, 81), (155, 82), (155, 84), (155, 97), (156, 73), (156, 75), (156, 76), (156, 77), (156, 78), (156, 79), (156, 80), (156, 81), (156, 82), (156, 83), (156, 86), (156, 97), (157, 76), (157, 77), (157, 78), (157, 79), (157, 80), (157, 81), (157, 82), (157, 85), (157, 96), (157, 97), (158, 74), (158, 76), (158, 77), (158, 78), (158, 79), (158, 80), (158, 81), (158, 83), (158, 96), (158, 97), (159, 75), (159, 78), (159, 79), (159, 82), (159, 96), (159, 98), (160, 76), (160, 81), (160, 96), (160, 98), (161, 78), (161, 80), (161, 91), (161, 96), (161, 98), (162, 91), (162, 96), (162, 98), (163, 90), (163, 91), (163, 95), (163, 98), (164, 89), (164, 91), (164, 92), (164, 93), (164, 94), (164, 97), (165, 89), (165, 91), (165, 92), (165, 97), (166, 96), (167, 90), (167, 92), (167, 94), ) coordinates_FFDAB9 = ((96, 69), (96, 71), (97, 69), (97, 72), (98, 68), (98, 70), (98, 73), (99, 68), (99, 70), (99, 74), (100, 68), (100, 70), (100, 73), (100, 76), (100, 85), (100, 86), (101, 70), (101, 74), (101, 77), (101, 78), (101, 79), (101, 80), (101, 81), (101, 82), (101, 83), (101, 85), (102, 68), (102, 70), (102, 76), (102, 81), (102, 83), (103, 69), (103, 71), (103, 78), (103, 79), (104, 70), (104, 72), (105, 70), (105, 73), (106, 70), (106, 72), (106, 74), (107, 68), (107, 70), (107, 71), (107, 72), (107, 74), (108, 67), (108, 74), (109, 66), (109, 70), (109, 71), (109, 72), (110, 65), (110, 69), (111, 64), (111, 67), (112, 63), (112, 66), (113, 62), (113, 65), (114, 62), (114, 65), (115, 62), (115, 65), (116, 63), (116, 66), (117, 63), (117, 65), (117, 67), (118, 64), (118, 67), (119, 64), (119, 67), (120, 65), (120, 66), ) coordinates_00CED1 = ((76, 93), (76, 95), (77, 93), (77, 96), (77, 97), (77, 98), (77, 100), (78, 82), (78, 83), (78, 84), (78, 86), (78, 87), (78, 88), (78, 89), (78, 90), (78, 91), (78, 93), (78, 94), (78, 95), (78, 100), (79, 80), (79, 84), (79, 85), (79, 86), (79, 92), (79, 93), (79, 94), (79, 95), (79, 96), (79, 97), (79, 98), (79, 100), (80, 79), (80, 81), (80, 82), (80, 83), (80, 84), (80, 86), (80, 87), (80, 88), (80, 89), (80, 90), (80, 91), (80, 92), (80, 93), (80, 94), (80, 95), (80, 96), (80, 101), (81, 78), (81, 80), (81, 81), (81, 82), (81, 83), (81, 84), (81, 85), (81, 86), (81, 87), (81, 88), (81, 89), (81, 90), (81, 91), (81, 92), (81, 93), (81, 94), (81, 95), (81, 98), (81, 99), (81, 101), (82, 77), (82, 84), (82, 85), (82, 86), (82, 87), (82, 88), (82, 89), (82, 90), (82, 91), (82, 92), (82, 93), (82, 94), (82, 96), (82, 100), (82, 101), (83, 76), (83, 79), (83, 80), (83, 81), (83, 82), (83, 83), (83, 86), (83, 87), (83, 88), (83, 89), (83, 90), (83, 91), (83, 92), (83, 95), (83, 100), (83, 102), (84, 75), (84, 78), (84, 84), (84, 87), (84, 88), (84, 89), (84, 90), (84, 91), (84, 94), (84, 100), (84, 102), (85, 74), (85, 77), (85, 86), (85, 89), (85, 92), (85, 100), (85, 103), (86, 73), (86, 76), (86, 87), (86, 91), (86, 100), (86, 103), (87, 72), (87, 75), (87, 89), (87, 100), (87, 103), (88, 72), (88, 75), (88, 100), (88, 102), (88, 103), (89, 72), (89, 75), (89, 100), (89, 102), (90, 72), (90, 74), (90, 75), (90, 76), (90, 101), (90, 102), (91, 73), (91, 75), (91, 76), (92, 74), (92, 78), (93, 79), (93, 80), (93, 81), (93, 82), (93, 83), (93, 84), (93, 85), (93, 86), (93, 87), (94, 76), (94, 78), (94, 89), (95, 77), (95, 79), (95, 80), (95, 81), (95, 82), (95, 83), (95, 84), (95, 85), (95, 86), (95, 87), (95, 90), (96, 78), (96, 80), (96, 81), (96, 82), (96, 83), (96, 84), (96, 85), (96, 89), (97, 79), (97, 81), (97, 82), (97, 83), (97, 87), (98, 79), (98, 85), (99, 80), (99, 82), (99, 83), ) coordinates_CC3E4E = () coordinates_771286 = ((123, 116), (124, 113), (124, 118), (124, 119), (124, 120), (124, 122), (125, 112), (125, 115), (125, 116), (125, 117), (125, 123), (126, 112), (126, 114), (126, 115), (126, 116), (126, 117), (126, 118), (126, 119), (126, 120), (126, 121), (126, 122), (126, 124), (127, 112), (127, 114), (127, 115), (127, 116), (127, 117), (127, 118), (127, 119), (127, 124), (128, 111), (128, 113), (128, 114), (128, 115), (128, 120), (128, 121), (128, 122), (129, 111), (129, 116), (129, 117), (129, 118), (129, 119), (130, 111), (130, 113), (130, 114), (130, 115), (131, 110), (131, 112), (132, 109), (132, 110), (133, 109), (134, 108), ) coordinates_9F522D = ((157, 115), (157, 118), (158, 115), (158, 119), (158, 120), (158, 132), (159, 116), (159, 118), (159, 122), (159, 130), (159, 133), (160, 116), (160, 118), (160, 119), (160, 120), (160, 124), (160, 129), (160, 132), (160, 134), (161, 117), (161, 126), (161, 127), (161, 130), (161, 131), (161, 132), (161, 133), (161, 135), (162, 118), (162, 120), (162, 121), (162, 129), (162, 130), (162, 131), (162, 132), (162, 134), (163, 123), (163, 126), (163, 127), (163, 128), (163, 129), (163, 130), (163, 131), (163, 133), (164, 125), (164, 132), (165, 126), (165, 128), (165, 129), (165, 131), ) coordinates_A0522D = ((80, 123), (80, 124), (80, 125), (80, 126), (80, 127), (80, 128), (80, 129), (80, 130), (80, 131), (80, 132), (81, 121), (81, 134), (82, 120), (82, 123), (82, 124), (82, 125), (82, 126), (82, 127), (82, 128), (82, 129), (82, 130), (82, 131), (82, 132), (82, 136), (83, 120), (83, 121), (83, 122), (83, 123), (83, 124), (83, 125), (83, 126), (83, 127), (83, 128), (83, 129), (83, 130), (83, 131), (83, 134), (83, 137), (84, 120), (84, 122), (84, 123), (84, 124), (84, 125), (84, 126), (84, 127), (84, 128), (84, 129), (84, 130), (84, 133), (84, 135), (84, 138), (85, 120), (85, 122), (85, 123), (85, 124), (85, 125), (85, 131), (85, 134), (86, 121), (86, 123), (86, 126), (86, 127), (86, 128), (86, 130), (86, 135), (87, 121), (87, 125), (87, 137), (87, 141), (87, 143), (88, 121), (88, 123), (88, 138), (88, 139), (88, 143), (89, 142), ) coordinates_781286 = ((110, 108), (111, 109), (111, 111), (112, 110), (112, 112), (113, 110), (113, 113), (114, 111), (114, 114), (115, 111), (115, 113), (115, 115), (115, 116), (115, 117), (115, 118), (115, 119), (115, 121), (116, 111), (116, 113), (116, 114), (116, 124), (117, 113), (117, 114), (117, 115), (117, 116), (117, 117), (117, 118), (117, 119), (117, 120), (117, 121), (117, 124), (118, 112), (118, 114), (118, 115), (118, 116), (118, 117), (118, 118), (118, 119), (118, 120), (118, 123), (119, 113), (119, 122), (120, 114), (120, 116), (120, 117), (120, 118), (120, 119), (120, 120), ) coordinates_79BADC = ((131, 117), (131, 120), (132, 114), (132, 116), (132, 120), (133, 112), (133, 118), (134, 111), (134, 114), (134, 115), (134, 117), (135, 109), (135, 112), (135, 113), (135, 114), (135, 116), (136, 109), (136, 111), (136, 112), (136, 113), (136, 115), (137, 108), (137, 110), (137, 111), (137, 112), (138, 108), (138, 110), (138, 111), (138, 112), (138, 114), (139, 108), (139, 113), (140, 109), (140, 112), ) coordinates_ED0000 = ((153, 99), (154, 99), (155, 99), (155, 100), (156, 99), (156, 100), (157, 88), (157, 99), (157, 101), (158, 86), (158, 89), (158, 99), (158, 101), (159, 85), (159, 89), (159, 100), (159, 101), (160, 84), (160, 86), (160, 87), (160, 89), (160, 100), (160, 102), (161, 82), (161, 85), (161, 86), (161, 87), (161, 89), (161, 100), (161, 102), (162, 81), (162, 84), (162, 85), (162, 86), (162, 88), (162, 100), (162, 102), (163, 81), (163, 83), (163, 84), (163, 85), (163, 87), (163, 100), (163, 103), (164, 81), (164, 83), (164, 84), (164, 85), (164, 87), (164, 100), (164, 103), (165, 81), (165, 83), (165, 84), (165, 85), (165, 87), (165, 99), (165, 101), (165, 103), (166, 81), (166, 83), (166, 84), (166, 85), (166, 87), (166, 98), (166, 100), (166, 101), (166, 102), (166, 104), (167, 81), (167, 83), (167, 84), (167, 85), (167, 87), (167, 97), (167, 99), (167, 100), (167, 101), (167, 102), (167, 104), (168, 82), (168, 84), (168, 85), (168, 86), (168, 88), (168, 96), (168, 103), (169, 82), (169, 84), (169, 85), (169, 86), (169, 88), (169, 92), (169, 93), (169, 94), (169, 97), (169, 98), (169, 99), (169, 100), (169, 102), (169, 108), (169, 110), (169, 111), (170, 83), (170, 88), (170, 92), (170, 96), (170, 107), (170, 113), (171, 84), (171, 87), (171, 92), (171, 94), (171, 106), (171, 108), (171, 109), (171, 110), (171, 111), (171, 115), (172, 92), (172, 94), (172, 105), (172, 107), (172, 108), (172, 109), (172, 110), (172, 111), (172, 112), (172, 113), (172, 116), (172, 117), (173, 91), (173, 93), (173, 94), (173, 95), (173, 96), (173, 105), (173, 107), (173, 108), (173, 109), (173, 110), (173, 111), (173, 112), (173, 113), (173, 114), (173, 115), (173, 118), (174, 91), (174, 93), (174, 94), (174, 98), (174, 99), (174, 106), (174, 109), (174, 110), (174, 111), (174, 112), (174, 113), (174, 114), (174, 115), (174, 116), (174, 117), (174, 120), (175, 91), (175, 95), (175, 96), (175, 97), (175, 101), (175, 107), (175, 110), (175, 111), (175, 112), (175, 113), (175, 114), (175, 115), (175, 116), (175, 117), (175, 118), (175, 119), (175, 122), (176, 92), (176, 94), (176, 98), (176, 102), (176, 109), (176, 111), (176, 112), (176, 113), (176, 114), (176, 115), (176, 116), (176, 117), (176, 118), (176, 119), (176, 120), (176, 121), (176, 123), (177, 99), (177, 103), (177, 110), (177, 112), (177, 113), (177, 114), (177, 115), (177, 116), (177, 117), (177, 118), (177, 119), (177, 120), (177, 121), (177, 122), (177, 124), (178, 100), (178, 104), (178, 110), (178, 112), (178, 113), (178, 114), (178, 115), (178, 116), (178, 117), (178, 118), (178, 119), (178, 120), (178, 121), (178, 124), (179, 101), (179, 105), (179, 110), (179, 111), (179, 112), (179, 113), (179, 114), (179, 115), (179, 116), (179, 117), (179, 118), (179, 119), (179, 120), (179, 122), (180, 104), (180, 107), (180, 108), (180, 109), (180, 110), (180, 111), (180, 112), (180, 113), (180, 114), (180, 115), (180, 116), (180, 117), (180, 118), (180, 119), (180, 121), (181, 105), (181, 114), (181, 115), (181, 120), (182, 110), (182, 111), (182, 112), (182, 113), (182, 116), (182, 117), (182, 119), (183, 106), (183, 108), (183, 114), (183, 115), ) coordinates_7ABADC = ((104, 109), (104, 111), (105, 108), (105, 112), (106, 108), (106, 110), (106, 111), (106, 113), (107, 109), (107, 111), (107, 112), (107, 114), (108, 109), (108, 112), (108, 113), (109, 110), (109, 113), (109, 114), (109, 117), (110, 112), (110, 114), (110, 115), (110, 118), (111, 113), (111, 116), (111, 119), (112, 114), (112, 120), (113, 116), (113, 118), (113, 119), (113, 121), ) coordinates_633264 = ((77, 102), (77, 104), (78, 106), (79, 103), (79, 107), (80, 103), (80, 108), (81, 103), (81, 105), (81, 106), (82, 104), (82, 107), (82, 109), (83, 104), (84, 105), (85, 105), (86, 105), (87, 105), (88, 105), (90, 104), ) coordinates_EC0DB0 = ((94, 121), (95, 116), (95, 119), (95, 123), (95, 124), (95, 125), (95, 126), (95, 127), (95, 128), (95, 129), (95, 130), (95, 132), (96, 116), (96, 121), (96, 133), (97, 116), (97, 117), (97, 118), (97, 119), (97, 120), (97, 121), (97, 122), (97, 123), (97, 124), (97, 125), (97, 126), (97, 127), (97, 128), (97, 129), (97, 130), (97, 131), (97, 132), (97, 134), (98, 116), (98, 118), (98, 119), (98, 120), (98, 121), (98, 122), (98, 123), (98, 124), (98, 125), (98, 126), (98, 127), (98, 128), (98, 129), (98, 130), (98, 131), (98, 132), (98, 133), (98, 135), (99, 116), (99, 118), (99, 119), (99, 120), (99, 121), (99, 122), (99, 123), (99, 124), (99, 125), (99, 126), (99, 130), (99, 131), (99, 132), (99, 133), (99, 135), (100, 117), (100, 119), (100, 120), (100, 121), (100, 122), (100, 123), (100, 124), (100, 128), (100, 131), (100, 132), (100, 133), (100, 135), (101, 118), (101, 121), (101, 122), (101, 126), (101, 130), (101, 132), (101, 133), (101, 135), (102, 119), (102, 124), (102, 131), (102, 135), (103, 121), (103, 122), (103, 132), (103, 134), ) coordinates_EB0DB0 = ((142, 121), (142, 122), (143, 119), (143, 123), (143, 134), (144, 118), (144, 121), (144, 122), (144, 124), (144, 125), (144, 126), (144, 127), (144, 128), (144, 129), (144, 130), (144, 131), (144, 132), (144, 133), (144, 135), (145, 117), (145, 119), (145, 120), (145, 121), (145, 122), (145, 123), (145, 135), (146, 116), (146, 118), (146, 119), (146, 120), (146, 121), (146, 122), (146, 123), (146, 124), (146, 125), (146, 126), (146, 127), (146, 128), (146, 129), (146, 130), (146, 131), (146, 132), (146, 133), (146, 135), (147, 116), (147, 118), (147, 119), (147, 120), (147, 121), (147, 122), (147, 123), (147, 124), (147, 125), (147, 126), (147, 127), (147, 128), (147, 129), (147, 130), (147, 131), (147, 132), (147, 134), (148, 118), (148, 119), (148, 120), (148, 121), (148, 122), (148, 123), (148, 124), (148, 125), (148, 126), (148, 127), (148, 128), (148, 129), (148, 130), (148, 131), (148, 132), (148, 134), (149, 116), (149, 120), (149, 121), (149, 122), (149, 123), (149, 124), (149, 125), (149, 126), (149, 133), (150, 118), (150, 127), (150, 128), (150, 129), (150, 130), (150, 132), (151, 120), (151, 122), (151, 123), (151, 124), (151, 125), (151, 126), ) coordinates_ED82EE = ((124, 69), (124, 71), (124, 72), (124, 73), (124, 74), (124, 75), (124, 77), (125, 69), (125, 78), (126, 68), (126, 70), (126, 74), (126, 75), (126, 78), (127, 69), (127, 71), (127, 72), (127, 73), (127, 76), (127, 78), (128, 70), (128, 78), (128, 79), ) coordinates_EE82EE = ((113, 88), (114, 79), (114, 81), (114, 88), (115, 78), (115, 82), (115, 87), (116, 77), (116, 80), (116, 81), (116, 84), (116, 87), (117, 79), (117, 80), (117, 81), (117, 82), (117, 86), (118, 74), (118, 75), (118, 78), (118, 79), (118, 80), (118, 81), (118, 82), (118, 83), (118, 84), (118, 86), (119, 69), (119, 71), (119, 72), (119, 73), (119, 76), (119, 77), (119, 78), (119, 79), (119, 80), (119, 86), (120, 69), (120, 81), (120, 82), (120, 83), (120, 84), (121, 68), (121, 71), (121, 72), (121, 73), (121, 74), (121, 75), (121, 76), (121, 77), (121, 78), (121, 79), (122, 69), ) coordinates_9832CC = ((122, 82), (122, 85), (122, 88), (122, 89), (122, 90), (122, 91), (122, 92), (122, 93), (122, 94), (123, 82), (123, 87), (123, 95), (123, 96), (123, 97), (123, 98), (123, 99), (123, 100), (123, 101), (123, 102), (123, 104), (124, 81), (124, 83), (124, 88), (124, 89), (124, 90), (124, 91), (124, 92), (124, 93), (124, 94), (124, 104), (125, 80), (125, 82), (125, 85), (125, 87), (125, 88), (125, 89), (125, 90), (125, 92), (125, 93), (125, 94), (125, 95), (125, 96), (125, 97), (125, 98), (125, 101), (125, 104), (126, 80), (126, 83), (126, 86), (126, 88), (126, 89), (126, 93), (126, 94), (126, 95), (126, 97), (126, 104), (127, 82), (127, 87), (127, 93), (127, 94), (127, 95), (127, 97), (127, 104), (128, 88), (128, 89), (128, 93), (128, 95), (128, 97), (128, 104), (129, 93), (129, 95), (129, 97), (130, 94), (130, 97), (131, 94), (131, 97), (132, 95), (132, 97), ) coordinates_9932CC = ((113, 90), (114, 90), (115, 90), (115, 103), (116, 89), (116, 91), (116, 102), (116, 104), (117, 89), (117, 92), (117, 93), (117, 94), (117, 95), (117, 96), (117, 97), (117, 98), (117, 99), (117, 102), (117, 104), (118, 88), (118, 90), (118, 91), (118, 100), (118, 102), (118, 104), (119, 88), (119, 104), (120, 88), (120, 90), (120, 91), (120, 92), (120, 93), (120, 94), (120, 95), (120, 96), (120, 97), (120, 100), (120, 101), (120, 102), (120, 104), (121, 100), (121, 106), ) coordinates_86CEEB = ((160, 114), (161, 114), (161, 115), (162, 114), (163, 114), (163, 116), (164, 114), (164, 118), (165, 115), (165, 119), (165, 121), (166, 116), (166, 118), (166, 123), (167, 117), (167, 120), (167, 121), (167, 125), (168, 118), (168, 122), (168, 123), (168, 126), (169, 120), (169, 123), (169, 124), (169, 125), (169, 127), (170, 122), (170, 124), (170, 125), (170, 127), (171, 123), (171, 125), (171, 126), (171, 128), (172, 124), (172, 126), (172, 128), (173, 124), (173, 126), (173, 128), (174, 125), (174, 127), (175, 125), (175, 127), (176, 125), (176, 127), (177, 126), (178, 126), ) coordinates_87CEEB = ((64, 131), (65, 131), (66, 129), (66, 131), (67, 129), (67, 131), (68, 129), (68, 131), (69, 129), (69, 131), (70, 128), (70, 131), (71, 128), (71, 131), (72, 129), (72, 131), (73, 129), (73, 131), (74, 129), (74, 131), (75, 129), (75, 132), (76, 122), (76, 124), (76, 125), (76, 126), (76, 127), (76, 128), (76, 129), (76, 130), (76, 132), (77, 121), (77, 132), (78, 123), (78, 124), (78, 125), (78, 126), (78, 127), (78, 128), (78, 129), (78, 131), (79, 120), (79, 121), (80, 119), (81, 118), (82, 117), (83, 117), (84, 117), (85, 117), (85, 118), (86, 117), (86, 118), (87, 118), (87, 119), (88, 118), (88, 119), ) coordinates_EE0000 = ((61, 112), (61, 113), (61, 114), (61, 115), (61, 116), (62, 108), (62, 109), (62, 110), (62, 111), (62, 117), (62, 118), (62, 119), (63, 105), (63, 106), (63, 112), (63, 113), (63, 114), (63, 115), (63, 116), (63, 120), (63, 121), (63, 122), (63, 123), (63, 124), (63, 125), (63, 126), (63, 127), (64, 103), (64, 104), (64, 107), (64, 108), (64, 109), (64, 111), (64, 118), (64, 128), (65, 101), (65, 105), (65, 120), (65, 127), (66, 100), (66, 104), (66, 122), (66, 125), (67, 99), (67, 103), (68, 93), (68, 95), (68, 96), (68, 97), (68, 100), (68, 101), (68, 102), (69, 92), (69, 97), (69, 98), (69, 99), (70, 91), (70, 93), (70, 94), (70, 95), (71, 92), (71, 95), (72, 92), (72, 96), (73, 93), (73, 97), (73, 101), (73, 102), (73, 103), (73, 105), (73, 114), (73, 116), (74, 94), (74, 96), (74, 107), (74, 113), (75, 98), (75, 99), (75, 100), (75, 101), (75, 102), (75, 103), (75, 104), (75, 105), (75, 108), (75, 113), (75, 115), (76, 106), (76, 109), (76, 113), (76, 115), (77, 108), (77, 110), (77, 114), (78, 109), (78, 111), (79, 110), (79, 111), (80, 110), (81, 111), ) coordinates_FE4500 = ((157, 134), (157, 136), (157, 137), (157, 138), (157, 139), (157, 140), (157, 142), (158, 135), (158, 141), (159, 135), (159, 137), (159, 138), (159, 140), ) coordinates_B4B4B4 = ((93, 140), (94, 140), (95, 140), (96, 140), (97, 139), (97, 140), (98, 139), (98, 140), (99, 139), (99, 140), (100, 139), (100, 140), (101, 139), (101, 140), (102, 139), (102, 140), (103, 139), (103, 140), (104, 140), (105, 138), (105, 140), (106, 138), (106, 141), (107, 138), (107, 140), (108, 138), (108, 140), (109, 138), (110, 139), (111, 137), (111, 139), (112, 138), (113, 136), (113, 138), (114, 135), (114, 137), (115, 135), (115, 137), (116, 134), (116, 136), (117, 134), (117, 136), (118, 134), (118, 135), (119, 134), (120, 134), ) coordinates_FED700 = ((157, 144), (157, 145), (158, 144), (158, 146), (159, 143), (159, 145), (160, 142), (160, 145), (161, 141), (161, 144), (162, 141), (162, 144), (163, 140), (163, 143), (165, 139), (165, 140), (166, 138), (166, 139), (167, 137), (167, 138), (168, 136), (169, 135), (169, 137), (170, 131), (170, 133), (170, 134), (170, 136), (171, 130), (171, 132), (171, 136), (172, 130), (172, 135), (173, 130), (173, 133), (173, 134), (174, 130), (174, 131), (175, 129), (175, 130), (176, 129), (177, 129), (178, 128), (178, 129), (179, 129), ) coordinates_CF2090 = ((163, 145), (164, 144), (164, 146), (165, 144), (166, 144), (167, 144), (168, 143), (168, 144), (169, 143), (169, 144), (170, 142), (170, 144), (171, 142), (171, 143), (172, 141), (172, 143), (173, 139), (173, 143), (174, 136), (174, 138), (174, 141), (174, 142), (175, 135), (175, 140), (176, 138), (177, 134), (177, 137), (178, 135), (179, 131), (179, 134), (180, 134), (181, 130), (181, 133), (182, 131), (182, 133), ) coordinates_B3B4B4 = ((125, 134), (125, 135), (126, 135), (127, 135), (127, 136), (128, 135), (128, 136), (129, 135), (129, 137), (130, 135), (130, 137), (131, 136), (131, 137), (132, 136), (132, 137), (133, 136), (134, 136), (134, 138), (135, 136), (135, 138), (136, 136), (136, 138), (137, 136), (137, 138), (138, 139), (139, 138), (139, 139), (140, 139), (141, 139), (142, 139), (143, 139), (143, 140), (144, 139), (144, 140), (145, 140), (146, 140), ) coordinates_EFE68C = ((165, 147), (166, 146), (166, 147), (167, 146), (167, 147), (168, 146), (169, 146), (169, 151), (170, 146), (171, 146), (171, 152), (172, 145), (172, 152), (172, 153), (173, 145), (173, 152), (173, 153), (174, 145), (174, 146), (174, 153), (174, 154), (175, 143), (175, 145), (175, 146), (175, 153), (175, 154), (176, 142), (176, 146), (176, 152), (176, 154), (176, 155), (177, 140), (177, 143), (177, 145), (177, 151), (177, 153), (177, 155), (178, 138), (178, 142), (178, 143), (178, 145), (178, 149), (178, 152), (178, 155), (179, 138), (179, 140), (179, 141), (179, 142), (179, 144), (179, 148), (179, 153), (179, 154), (179, 155), (180, 138), (180, 140), (180, 141), (180, 142), (180, 144), (180, 147), (180, 151), (180, 152), (181, 137), (181, 139), (181, 140), (181, 141), (181, 142), (181, 143), (181, 144), (181, 145), (181, 146), (181, 150), (182, 137), (182, 139), (182, 140), (182, 141), (182, 142), (182, 143), (182, 144), (182, 148), (183, 138), (183, 144), (183, 146), (184, 139), (184, 141), (184, 142), (184, 143), ) coordinates_FEFF01 = ((136, 144), (136, 145), (136, 147), (137, 144), (137, 149), (138, 143), (138, 145), (138, 146), (138, 147), (138, 150), (138, 151), (139, 143), (139, 145), (139, 146), (139, 147), (139, 148), (139, 149), (139, 152), (139, 153), (139, 154), (139, 155), (139, 157), (140, 143), (140, 145), (140, 146), (140, 147), (140, 148), (140, 149), (140, 150), (140, 151), (140, 158), (141, 143), (141, 145), (141, 146), (141, 147), (141, 148), (141, 149), (141, 150), (141, 151), (141, 152), (141, 153), (141, 154), (141, 155), (141, 156), (141, 157), (141, 160), (142, 142), (142, 144), (142, 145), (142, 146), (142, 147), (142, 148), (142, 149), (142, 150), (142, 151), (142, 152), (142, 153), (142, 154), (142, 155), (142, 156), (142, 157), (142, 158), (142, 161), (142, 162), (142, 163), (142, 164), (143, 142), (143, 144), (143, 145), (143, 146), (143, 147), (143, 148), (143, 149), (143, 150), (143, 151), (143, 152), (143, 153), (143, 154), (143, 155), (143, 156), (143, 157), (143, 158), (143, 159), (143, 160), (143, 161), (143, 164), (144, 142), (144, 144), (144, 145), (144, 146), (144, 147), (144, 148), (144, 149), (144, 150), (144, 151), (144, 152), (144, 153), (144, 154), (144, 155), (144, 156), (144, 157), (144, 158), (144, 159), (144, 160), (144, 161), (144, 162), (144, 163), (144, 165), (145, 142), (145, 144), (145, 145), (145, 146), (145, 147), (145, 148), (145, 149), (145, 150), (145, 151), (145, 152), (145, 153), (145, 161), (145, 162), (145, 163), (145, 165), (146, 142), (146, 144), (146, 145), (146, 146), (146, 147), (146, 148), (146, 149), (146, 150), (146, 151), (146, 154), (146, 155), (146, 156), (146, 157), (146, 158), (146, 159), (146, 162), (146, 163), (146, 164), (146, 166), (147, 142), (147, 144), (147, 145), (147, 146), (147, 147), (147, 148), (147, 149), (147, 150), (147, 153), (147, 161), (147, 163), (147, 164), (147, 166), (148, 142), (148, 144), (148, 145), (148, 146), (148, 147), (148, 148), (148, 149), (148, 151), (148, 162), (148, 164), (148, 166), (149, 141), (149, 143), (149, 144), (149, 145), (149, 146), (149, 147), (149, 148), (149, 150), (149, 162), (149, 167), (150, 142), (150, 147), (150, 148), (150, 150), (150, 162), (150, 164), (150, 165), (150, 167), (151, 142), (151, 144), (151, 145), (151, 148), (151, 150), (151, 161), (151, 163), (152, 143), (152, 147), (152, 149), (153, 148), ) coordinates_31CD32 = ((152, 165), (152, 167), (153, 162), (153, 163), (153, 164), (154, 159), (154, 161), (154, 165), (154, 166), (154, 168), (155, 158), (155, 162), (155, 163), (155, 164), (155, 165), (155, 166), (155, 168), (156, 158), (156, 160), (156, 161), (156, 162), (156, 163), (156, 164), (156, 165), (156, 166), (156, 167), (156, 169), (157, 158), (157, 160), (157, 161), (157, 162), (157, 163), (157, 164), (157, 165), (157, 166), (157, 168), (158, 158), (158, 160), (158, 161), (158, 162), (158, 163), (158, 164), (158, 165), (158, 166), (158, 168), (159, 161), (159, 162), (159, 163), (159, 164), (159, 165), (159, 167), (160, 159), (160, 162), (160, 163), (160, 164), (160, 165), (160, 167), (161, 160), (161, 163), (161, 164), (161, 165), (161, 167), (162, 162), (162, 164), (162, 165), (162, 166), (162, 168), (163, 163), (163, 165), (163, 166), (163, 168), (164, 157), (164, 164), (164, 166), (164, 167), (164, 169), (165, 154), (165, 155), (165, 158), (165, 164), (165, 165), (165, 168), (166, 153), (166, 156), (166, 157), (166, 159), (166, 165), (166, 168), (167, 153), (167, 155), (167, 156), (167, 157), (167, 159), (167, 165), (167, 167), (168, 153), (168, 155), (168, 156), (168, 157), (168, 159), (168, 165), (168, 167), (169, 153), (169, 155), (169, 156), (169, 157), (169, 159), (169, 164), (169, 167), (170, 154), (170, 156), (170, 158), (170, 163), (170, 166), (171, 154), (171, 156), (171, 157), (171, 158), (171, 159), (171, 162), (171, 164), (171, 166), (172, 155), (172, 157), (172, 158), (172, 159), (172, 160), (172, 161), (172, 163), (172, 165), (173, 156), (173, 158), (173, 159), (173, 162), (173, 164), (174, 156), (174, 159), (174, 160), (174, 161), (174, 163), (175, 158), (175, 162), (176, 159), (176, 161), ) coordinates_0B30FF = ((133, 128), (133, 129), (134, 127), (134, 130), (135, 126), (135, 130), (136, 126), (136, 128), (136, 130), (137, 125), (137, 127), (137, 128), (137, 130), (138, 125), (138, 127), (138, 128), (138, 130), (139, 124), (139, 126), (139, 127), (139, 128), (139, 130), (140, 124), (140, 126), (140, 127), (140, 128), (140, 130), (141, 124), (141, 130), (142, 124), (142, 126), (142, 127), (142, 128), (142, 129), (142, 131), ) coordinates_0C30FF = ((102, 128), (103, 126), (103, 130), (104, 124), (104, 128), (104, 131), (105, 124), (105, 126), (105, 127), (105, 128), (105, 129), (105, 131), (106, 124), (106, 126), (106, 127), (106, 128), (106, 129), (106, 131), (107, 125), (107, 127), (107, 128), (107, 129), (107, 131), (108, 125), (108, 128), (108, 129), (108, 131), (109, 126), (109, 129), (109, 130), (110, 127), (110, 130), (111, 128), (111, 129), ) coordinates_FFD700 = ((67, 133), (68, 133), (68, 134), (69, 133), (69, 134), (70, 133), (70, 134), (71, 133), (72, 133), (72, 135), (73, 133), (73, 135), (74, 134), (74, 135), (75, 134), (75, 136), (76, 134), (76, 136), (77, 135), (77, 137), (78, 136), (78, 138), (79, 136), (79, 140), (79, 141), (80, 137), (80, 142), (80, 144), (81, 138), (81, 140), (81, 141), (81, 144), (82, 144), (82, 145), (83, 145), (84, 145), (84, 146), (85, 145), (85, 146), (86, 145), ) coordinates_D02090 = ((63, 134), (63, 135), (64, 134), (64, 136), (65, 134), (65, 137), (66, 135), (66, 138), (67, 137), (67, 139), (68, 138), (69, 138), (69, 141), (70, 140), (70, 142), (71, 139), (71, 141), (71, 143), (72, 140), (72, 142), (72, 145), (73, 141), (73, 143), (73, 147), (74, 142), (74, 144), (74, 145), (74, 148), (75, 143), (75, 147), (75, 148), (76, 147), (77, 148), (78, 148), (79, 149), ) coordinates_F0E68C = ((62, 143), (62, 145), (63, 142), (63, 146), (63, 147), (63, 148), (63, 149), (63, 150), (64, 141), (64, 143), (64, 144), (64, 145), (64, 153), (65, 141), (65, 143), (65, 144), (65, 145), (65, 146), (65, 149), (65, 151), (65, 154), (66, 141), (66, 145), (66, 147), (66, 150), (66, 152), (66, 154), (67, 142), (67, 144), (67, 147), (67, 151), (67, 153), (67, 154), (67, 158), (68, 145), (68, 148), (68, 152), (68, 154), (68, 156), (68, 157), (68, 159), (69, 147), (69, 150), (69, 159), (70, 148), (70, 150), (70, 153), (70, 154), (70, 155), (70, 156), (70, 157), (70, 158), (70, 160), (71, 149), (71, 151), (71, 157), (71, 158), (71, 160), (72, 149), (72, 151), (72, 157), (72, 160), (73, 150), (73, 152), (73, 157), (73, 160), (74, 150), (74, 152), (74, 156), (74, 158), (74, 160), (75, 151), (75, 156), (75, 159), (76, 151), (76, 155), (77, 151), (77, 155), (77, 158), (78, 151), (78, 155), (78, 157), (79, 155), (79, 156), (80, 155), ) coordinates_FFFF00 = ((93, 142), (93, 149), (94, 142), (94, 144), (94, 145), (94, 146), (94, 147), (94, 148), (94, 149), (94, 150), (94, 157), (94, 159), (94, 161), (95, 142), (95, 150), (95, 157), (95, 162), (96, 142), (96, 144), (96, 145), (96, 146), (96, 147), (96, 148), (96, 150), (96, 157), (96, 159), (96, 160), (96, 161), (96, 163), (97, 142), (97, 144), (97, 145), (97, 146), (97, 147), (97, 148), (97, 150), (97, 158), (97, 160), (97, 161), (98, 142), (98, 144), (98, 145), (98, 146), (98, 147), (98, 148), (98, 150), (98, 158), (98, 160), (98, 161), (98, 162), (98, 164), (99, 142), (99, 144), (99, 145), (99, 146), (99, 147), (99, 148), (99, 149), (99, 151), (99, 158), (99, 160), (99, 161), (99, 162), (99, 163), (99, 165), (100, 142), (100, 144), (100, 145), (100, 146), (100, 147), (100, 148), (100, 149), (100, 151), (100, 158), (100, 160), (100, 161), (100, 162), (100, 163), (100, 164), (100, 166), (101, 142), (101, 144), (101, 145), (101, 146), (101, 147), (101, 148), (101, 149), (101, 150), (101, 152), (101, 158), (101, 160), (101, 161), (101, 162), (101, 163), (101, 164), (101, 166), (102, 142), (102, 144), (102, 145), (102, 146), (102, 147), (102, 148), (102, 149), (102, 150), (102, 151), (102, 153), (102, 157), (102, 159), (102, 160), (102, 161), (102, 162), (102, 163), (102, 164), (102, 166), (103, 145), (103, 146), (103, 147), (103, 148), (103, 149), (103, 150), (103, 151), (103, 152), (103, 154), (103, 155), (103, 156), (103, 158), (103, 159), (103, 160), (103, 161), (103, 162), (103, 163), (103, 166), (104, 144), (104, 146), (104, 147), (104, 148), (104, 149), (104, 150), (104, 151), (104, 152), (104, 153), (104, 157), (104, 158), (104, 159), (104, 160), (104, 165), (105, 145), (105, 147), (105, 148), (105, 149), (105, 150), (105, 151), (105, 152), (105, 153), (105, 154), (105, 155), (105, 161), (105, 163), (106, 145), (106, 147), (106, 148), (106, 149), (106, 150), (106, 151), (106, 152), (106, 156), (106, 157), (106, 158), (106, 159), (106, 160), (107, 146), (107, 148), (107, 149), (107, 153), (107, 155), (108, 147), (108, 150), (108, 151), (108, 152), (109, 148), ) coordinates_32CD32 = ((74, 162), (75, 164), (76, 161), (76, 166), (77, 160), (77, 162), (77, 163), (77, 164), (77, 167), (78, 159), (78, 161), (78, 162), (78, 163), (78, 164), (78, 165), (78, 168), (79, 158), (79, 160), (79, 161), (79, 162), (79, 163), (79, 164), (79, 165), (79, 166), (79, 168), (80, 157), (80, 160), (80, 161), (80, 162), (80, 163), (80, 164), (80, 165), (80, 166), (80, 167), (80, 169), (81, 156), (81, 159), (81, 160), (81, 161), (81, 162), (81, 163), (81, 164), (81, 165), (81, 166), (81, 167), (81, 169), (82, 155), (82, 157), (82, 158), (82, 159), (82, 160), (82, 161), (82, 162), (82, 163), (82, 164), (82, 165), (82, 166), (82, 167), (82, 169), (83, 155), (83, 160), (83, 162), (83, 163), (83, 164), (83, 165), (83, 166), (83, 167), (83, 169), (84, 160), (84, 162), (84, 163), (84, 164), (84, 165), (84, 166), (84, 168), (85, 160), (85, 162), (85, 163), (85, 164), (85, 165), (85, 166), (85, 168), (86, 161), (86, 163), (86, 164), (86, 165), (86, 167), (87, 162), (87, 164), (87, 165), (87, 167), (88, 163), (88, 165), (88, 167), (89, 163), (89, 164), (89, 165), (89, 166), (89, 168), (90, 163), (90, 165), (90, 166), (90, 167), (90, 169), (91, 162), (91, 164), (91, 165), (91, 166), (91, 167), (91, 169), (92, 161), (92, 164), (92, 165), (92, 166), (92, 167), (92, 169), (93, 165), (93, 166), (93, 167), (93, 169), (94, 163), (94, 166), (94, 167), (94, 169), (95, 164), (95, 166), (95, 167), (95, 169), (96, 165), (96, 167), (96, 169), (97, 166), (97, 169), (98, 167), (98, 168), )
CONTRACHEQUE = "contracheque" CONTRACHEQUE_2019 = "contracheque_2019" INDENIZACOES = "indenizacoes" HEADERS = { CONTRACHEQUE: { "Remuneração do Cargo Efetivo": 4, "Outras Verbas Remuneratórias Legais/Judiciais": 5, "Função de Confiança ou Cargo em Comissão": 6, "13o. Salário": 7, "Adicional de Férias": 8, "Abono de Permanência": 9, "Outras Remunerações Temporárias": 10, "Verbas Indenizatórias": 11, "Contribuição Previdenciária": 13, "Imposto de Renda": 14, "Retenção do Teto": 15, }, CONTRACHEQUE_2019: { "Remuneração do Cargo Efetivo": 4, "Outras Verbas Remuneratórias Legais/Judiciais": 5, "Função de Confiança ou Cargo em Comissão": 6, "13o. Salário": 7, "Adicional de Férias": 8, "Abono de Permanência": 9, "Outras Remunerações Temporárias": 10, "Contribuição Previdenciária": 12, "Imposto de Renda": 13, "Retenção do Teto": 14, }, INDENIZACOES: { "Auxílio alimentação": 4, "Auxílio saúde": 5, "Auxílio Pré Escolar": 6, "Auxílio Cursos": 7, "Auxílio Moradia": 8, "Adicional Noturno": 9, "Serviço Extraor.": 10, "Substituição de Função": 11, "Cumulações": 12, }, }
class AllocationMap(object): # Keeps track of item allocation to caches. def __init__(self): self.alloc_o = dict() # for each item (key) maps a list of caches where it is cached. Has entries just for allocated objects. self.alloc = dict() # for each cache (key) maps the list of items it caches (the cache.cache) def allocate(self, item, cache): if item not in self.alloc_o.keys(): self.alloc_o[item] = [] self.alloc_o[item].append(cache) if cache not in self.alloc.keys(): self.alloc[cache] = [] self.alloc[cache].append(item) def evict(self, item, cache): if item not in self.alloc_o.keys(): return "item not allocated" if cache not in self.alloc.keys(): return "unknown cache" if item not in self.alloc_o[cache] or cache not in self.alloc[item]: return "item not allocated to cache" self.alloc[cache].remove(item) if not len(self.alloc[cache]): del self.alloc[cache] self.alloc_o[item].remove(cache) if not len(self.alloc_o[item]): del self.alloc_o[item] def print_allocations(self): print ("_______________________________") print ("Computed Cache Allocations") for cache in self.alloc: print ("cache: ", cache.name, " cache filled: " , sum([j.work for j in self.alloc[cache]]), "/", cache.capacity) for item in self.alloc[cache]: print (item.name, " size: ", item.work) print ("_______________________________") def __eq__(self, other): if not isinstance(other, self.__class__): return False if set(self.alloc.keys()) != set(other.alloc.keys()): return False if set(self.alloc_o.keys()) != set(other.alloc_o.keys()): return False for k,v in self.alloc.items(): if set(v).difference(set(other.alloc[k])): return False for k,v in self.alloc_o.items(): if set(v).difference(set(other.alloc_o[k])): return False return True def __ne__(self, other): return not self.__eq__(other)
def romanToDecimal(S): roman = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1000} a = roman[S[0]]+roman[S[-1]] i=1 while i<len(S)-1: print(a) if (roman[S[i]] >= roman[S[i+1]]): a = a+roman[S[i]] i=i+1 else: a = a -roman[S[i]] i=i+1 return a print(romanToDecimal('CMXVI'))
################################################################################## # Deeplearning4j.py # description: A wrapper service for the Deeplearning4j framework. # categories: ai # more info @: http://myrobotlab.org/service/Deeplearning4j ################################################################################## # start the deeplearning4j service deeplearning4j = Runtime.start('deeplearning4j','Deeplearning4j') # load the VGG16 model from the zoo deeplearning4j.loadVGG16() # run an image file through the model and get the classifications / confidence classifications = deeplearning4j.classifyImageFileVGG16("image0-1.png") # print them out... it's a dictionary/map of label to confidence level (between 0-1) for label in classifications: print(label + " : " + str(classifications.get(label)))
# Day 16: http://adventofcode.com/2016/day/16 inp = '11101000110010100' def checksum(initial, length): table = str.maketrans('01', '10') data = initial while len(data) < length: new = data[::-1].translate(table) data = f'{data}0{new}' check = data[:length] while not len(check) % 2: check = [int(x == y) for x, y in zip([iter(check)]2)] return ''.join(map(str, check)) if __name__ == '__main__': print('Checksum for the first disk:', checksum(inp, 272)) print('Checksum for the second disk:', checksum(inp, 35651584))
n = 600851475143 i=2 while(i*i<=n): while(n%i==0): n=n/i i=i+1 print(n)
def polishNotation(exp: list): # Este algoritmo resuelve expresiones matemáticas en notación polaca inversa # La expresión matemática se ingresa en un arreglo # Se utiliza una pila para la solución de las operaciones hasta completarlas todas # Retorna la solución de la operación enviada stack = [] for i in exp: if isOperator(i): op = i n2 = stack.pop() n1 = stack.pop() if op == "+": res = int(n1) + int(n2) stack.append(f'{res}') if op == "-": res = int(n1) - int(n2) stack.append(f'{res}') if op == "x": res = int(n1) * int(n2) stack.append(f'{res}') if op == "/": res = int(n1) / int(n2) stack.append(f'{int(res)}') else: stack.append(i) return stack[0] def isOperator(ch): # Este programa retorna True si el caracter ingresado es un operador matemático # De lo contrario retorna False if ch == '+' or ch == '-' or ch == 'x' or ch == '/': return True return False # Test expression = ['1', '5', 'x'] print(expression) print(polishNotation(expression)) expression = ['2', '1', '+', '3', 'x'] print(expression) print(polishNotation(expression)) expression = ['4', '13', '5', '/', '+'] print(expression) print(polishNotation(expression)) expression = ['10', '6', '9', '3', '+', '-11', 'x', '/', 'x', '17', '+', '5', '+'] print(expression) print(polishNotation(expression))
consumer_key = 'NYICJJWGEHWjLzf16L4bdOmBp' consumer_secret = 'AT8vDFvB6IkjLM5Ckz9DC5yQ0nsqut8vwGYOpnXPMFIESsHKG5' access_token = '2909697444-NNDWfyczj7Asgv7t5YvysLcnnEj3CcoC12AB46R' access_secret = 'kRaSQf3FEEz3X7TSH1o0EisdweIGoxm9Af6E0WceFzeEp'
"""Tests for BEL2SCM test_bel2scm.py --------------- This file contains all the test functions we used to generate sample data, testing and debugging code for bel2scm algorithm. Input files: - BELSourceFiles contains bel graphs for all our test cases - Data folder contains all the input and output data files - Neuirps_BEL2SCM contains all python scripts for bel2scm algorithm test_plots_bel2scm.py --------------------- This is the test file which stores experiments to generate data for plots in the paper that were generated using bel2scm algorithm. Input files: - BELSourceFiles contains bel graphs for all our test cases - Data folder contains all the input and output data files - Neuirps_BEL2SCM contains all python scripts for bel2scm algorithm test_plots_known_parameters_scm.py ---------------------------------- This is the test file which stores experiments to generate data for plots in the paper that were generated using DataGeneration SCM for covid-19 graph. Input files: - DataGenerationSCM folder contains code for generating observational data for covid-19 graph using known parameters which were hardcoded in the scripts using domain knowledge. """
# -- coding: utf-8 -- class Filter: @staticmethod def sanitize_html_tags(string): return string.replace("<", "<").replace(">", ">") @staticmethod def sanitize_quotes(string): return string.replace("'", "'").replace('"', """) @staticmethod def sanitize_string(string): string = string.replace("&", "&") string = Filter.sanitize_html_tags(string) string = Filter.sanitize_quotes(string) string = string.replace("#", "#") string = string.replace("?", "?") string = string.replace("¿", "¿") string = Filter.normalize(string) return string @staticmethod def normalize(string): replacements = ( ("á", "á"), ("é", "é"), ("í", "í"), ("ó", "ó"), ("ú", "ú"), ("Á", "Á"), ("É", "É"), ("Í", "Í"), ("Ó", "Ó"), ("Ú", "Ú"), ("ü", "ü"), ("Ü", "Ü"), ("Ñ", "&#209"), ("ñ", "&#241"), ) for a, b in replacements: string = string.replace(a, b) return string @staticmethod def sanitize_int(value): try: value = int(value) except: value = 0 return value
dct = {'one':'two', 'three':'one', 'two':'three' } v = dct['three'] for k in range(len(dct)): v = dct[v] print(v) print(v)
class Solution: def canPlaceFlowers(self, flowerbed: List[int], n: int) -> bool: f = flowerbed ans = 0 for i in range(len(f)): if f[i] == 0: l, r = max(0, i - 1), min(i + 1, len(f) - 1) if f[r] == 0 and f[l] == 0: f[i] = 1 ans += 1 return ans >= n
# python alura-python/best-practices/hints.py class Name: def __init__(self, name: str, age: int) -> None: self.name = name self.age = age def testa(self, name: str) -> int: self.name = name return int(self.age) def testegain() -> str: return 'again' myname = Name('wilton "paulo" da silva', 39) print(myname.name)
class MLPRTranspiler(object): def __init__(self, model): self.model = model self.layer_sizes = ','.join(map(lambda x : str(x), self.model.hidden_layer_sizes)) self.build_weights() self.build_layers() self.build_bias() def build_layers(self): self.networks = "" self.name_networks = "%s" % (','.join(["network%d" %(x+1) for x in range(len(self.model.hidden_layer_sizes))])) i = 1 for hl in self.model.hidden_layer_sizes: self.networks += "double network%d[%d] = {0};" % (i, hl) i+=1 def build_bias(self): i = 1 self.bias_networks = "double * bias_networks[N_LAYERS-1] = {%s};" % (','.join(["bias%d" %(x+1) for x in range(len(self.model.intercepts_))])) self.bias = "" for bias_networks in self.model.intercepts_: matrix = [] self.bias += "double bias%d[%d] = {%s};\n" % (i, len(bias_networks ), ",".join(bias_networks.astype(str))) i+=1 def build_weights(self): self.weights_networks = "double * weights_networks[N_LAYERS-1] = {%s};" % (','.join(["weights%d" %(x+1) for x in range(len(self.model.coefs_))])) self.weigths = "" i = 1 for weights_networks in self.model.coefs_: matrix = [] for weights in weights_networks: matrix.append(','.join(weights.astype(str))) self.weigths += "double weights%d[%d] = {%s};\n" % (i, len(weights_networks) * len(weights), ",".join(matrix)) i+=1 def generate_code(self): return """ /* The following code was generated using Clara.Transpiler. For more information please visit: https://github.com/asergiobranco/clara / #include <stdio.h> #include <math.h> #define N_LAYERS %d #define N_FEATURES %d #define %s int networks_len[N_LAYERS] = {N_FEATURES, %s, 1}; double sample[N_FEATURES] = {0}; %s double network_out[1] = {0}; double networks[N_LAYERS] = {sample, %s, network_out}; %s %s %s %s #ifdef IDENTITY double identity(double neuron){ return neuron; } #define ACTIVATION(...) identity(__VA_ARGS__) #endif #ifdef LOGISTIC double logistic(double neuron){ return 1 / (1+exp(-neuron)); } #define ACTIVATION(...) logistic(__VA_ARGS__) #endif #ifdef RELU double relu(double neuron){ return (neuron > 0.0 ? neuron : 0.0); } #define ACTIVATION(...) relu(__VA_ARGS__) #endif #ifdef TANH #define ACTIVATION(...) tanh(__VA_ARGS__) #endif double * propagation(double * network, double * next_network, double * weights, double * bias, int network_len, int next_network_len, int layer_no){ int i = 0, j = 0, w=0; for(i=0; i < next_network_len; i++){ next_network[i] = bias[i]; } for(i=0; i < next_network_len; i++){ for(j = 0; j < network_len; j++){ w = (next_network_len * j) + i; next_network[i] += network[j] * weights[w]; } if(layer_no < (N_LAYERS-2)){ next_network[i] = ACTIVATION(next_network[i]); } } return next_network; } double predict(double * sample){ int i = 0; for(i =0 ; i<N_FEATURES; i++){networks[0][i] = sample[i];} for(i = 0; i < N_LAYERS - 1; i++){ propagation(networks[i], networks[i+1], weights_networks[i], bias_networks[i], networks_len[i], networks_len[i+1], i); } return networks[N_LAYERS-1][0]; } """ % ( len(self.model.coefs_) + 1, len(self.model.coefs_[0]), self.model.activation.upper(), self.layer_sizes, self.networks, self.name_networks, self.bias, self.bias_networks, self.weigths, self.weights_networks )
default_app_config = 'djadmin.apps.ActivityAppConfig' __name__ = 'djadmin' __author__ = 'Neeraj Kumar' __version__ = '1.1.7' __author_email__ = '[email protected]' __description__ = 'Djadmin is a django admin theme'
config = { "Virustotal": { "KEY":"718d3ef46ba51c38936a5bba67ba40e1348867aa0e9c0fa6ac8cd76c5950a983", "URL": "https://www.virustotal.com/vtapi/v2/file/report" } , "hybridanalysis": { "KEY":"yyicbmp80fa6638bnkgcw93y5c07f536iyh0qo7r5bc2fabbtojj2yo97d352208", "URL": "https://www.hybrid-analysis.com/api/v2/" } }
# Definition for a binary tree node. # class TreeNode: # def __init__(self, x): # self.val = x # self.left = None # self.right = None class Solution: def node(self, nums, start, end): median = (start+end)//2 node = TreeNode(nums[median]) if start == end: return node elif start < end: node.left = self.node(nums, start, median-1) node.right = self.node(nums, median+1, end) else: return None return node def sortedArrayToBST(self, nums): """ :type nums: List[int] :rtype: TreeNode """ if len(nums) == 0: return None root = self.node(nums, 0, len(nums)-1) return root
#House budget while True: price = float(input("Enter price: ")) if price < 500000: print("Buy now!") else: print("Keep looking.")
a = "Dani" #if anidados -> Evalua una condicion, ejecuta la instruccion y pasa al siguiente if if a == "Dani": print("Ok") if a == "Alejandro": print("Wrong") else: print("I dont know\n") #elif -> Evalua una condicion, si es verdadera ejcuta la instruccion y sale if a == "Dani": print("Ok") elif a == "Alejandro": print("Wrong") else: print("I dont know") #Operadores """ == != > < <= >= """ #Boolean a = False if a: print("True") else: print("False")
class TransferError(ValueError): pass class Transfer: """Class representing a transfer from a source well to a destination well. Parameters ---------- source_well A Well object representing the plate well from which to transfer. destination_well A Well object representing the plate well to which to transfer. volume Volume to be transferred, expressed in liters. data A dict containing any useful information about the transfer. This information can be used later e.g. as parameters for the transfer when exporting a picklist. """ def __init__(self, source_well, destination_well, volume, data=None): self.volume = volume self.source_well = source_well self.destination_well = destination_well self.data = data def to_plain_string(self): """Return "Transfer {volume}L from {source_well} into {dest_well}".""" return ( "Transfer {self.volume:.02E}L from {self.source_well.plate.name} " "{self.source_well.name} into " "{self.destination_well.plate.name} " "{self.destination_well.name}" ).format(self=self) def to_short_string(self): """Return "Transfer {volume}L {source_well} -> {dest_well}".""" return ( "{self.__class__.__name__} {self.volume:.02E}L {self.source_well} -> {self.destination_well}" ).format(self=self) def with_new_volume(self, new_volume): """Return a version of the transfer with a new volume.""" return self.__class__( source_well=self.source_well, destination_well=self.destination_well, volume=new_volume, data=self.data, ) def apply(self): # error_prefix = "%s error:" % self.to_short_string() if self.source_well.is_empty: raise TransferError("Source well is empty!") # pre-check in both source and destination wells that transfers # are valid if self.volume > self.source_well.volume: raise TransferError( ("Subtraction of %.2e L from %s impossible." " Current volume: %.2e L") % (self.volume, self, self.source_well.volume) ) final_destination_volume = self.destination_well.volume + self.volume if (self.destination_well.capacity is not None) and ( final_destination_volume > self.destination_well.capacity ): raise TransferError( "Transfer of %.2e L from %s to %s brings volume over capacity." % (self.volume, self, self.destination_well) ) # If you arrive here, it means that the transfer is valid, do it. factor = float(self.volume) / self.source_well.volume quantities_transferred = { component: quantity * factor for component, quantity in self.source_well.content.quantities.items() } self.destination_well.add_content(quantities_transferred, volume=self.volume) self.source_well.subtract_content(quantities_transferred, volume=self.volume) if self not in self.destination_well.sources: self.destination_well.sources.append(self) def __repr__(self): """Return "Transfer {volume}L from {source_well} into {dest_well}".""" return self.to_plain_string()
def twoSum(nums, target): temp = nums[:] nums.sort() hi = len(nums) - 1 lo = 0 while lo < hi: if (nums[lo] + nums[hi]) < target: lo += 1 elif (nums[lo] + nums[hi]) > target: hi -= 1 else: if nums[lo] == nums[hi]: return [temp.index(nums[lo]), temp[temp.index(nums[lo])+1:].index(nums[hi])+temp.index(nums[lo])+1] else: return [temp.index(nums[lo]), temp.index(nums[hi])]
class Vendor: def __init__(self, token, name): self.token = token self.name = name def __lt__(self, other): return self.token < other.token
class CommandLineRouteHandlerError(BaseException): """ This class implements the CommandLineRouteHandlerError. """ def __init__(self, message=None): """ This method initializes an instance of the CommandLineRouteHandlerError class. :param str message: An optional message. :rtype: None """ self._message = message @property def message(self): """ This method returns the value for the message property. :rtype: str """ return self._message
n = int(input()) advice = ['advertise', 'do not advertise', 'does not matter'] results = [] for i in range(n): r, e, c = input().split() r, e, c = int(r), int(e), int(c) if r > e - c: results.append(advice[1]) elif r < e - c: results.append(advice[0]) else: results.append(advice[2]) for ans in results: print(ans)
# Definition for singly-linked list. class ListNode(object): def __init__(self, x): self.val = x self.next = None def __repr__(self): a = self value = '' while a: value = value + str(a.val) + '->' a = a.next return value class Solution(object): def _set_value(self, x): if self.head is None: self.head = self.tail = ListNode(x.val) else: self.tail.next = ListNode(x.val) self.tail = self.tail.next def mergeTwoLists(self, a, b): """ :type l1: ListNode :type l2: ListNode :rtype: ListNode """ self.head = None self.tail = None while a is not None: if b is None or a.val < b.val: self._set_value(a) a = a.next else: self._set_value(b) b = b.next while b is not None: self._set_value(b) b = b.next return self.head if __name__ == '__main__': l1 = ListNode(1) l1.next = ListNode(2) l1.next.next = ListNode(4) l2 = ListNode(1) l2.next = ListNode(3) l2.next.next = ListNode(4) sol = Solution() print(sol.mergeTwoLists(l1, l2))
def insertionSort1(n, arr): i = n-1 val = arr[i] while(i>0 and val<arr[i-1]): arr[i] = arr[i-1] print(arr) i-=1 arr[i] = val print(arr)
class ConnectionInterrupted(Exception): def __init__(self, connection, parent=None): self.connection = connection def __str__(self): error_type = type(self.__cause__).__name__ error_msg = str(self.__cause__) return "Redis {}: {}".format(error_type, error_msg) class CompressorError(Exception): pass
# define this module's errors class ParserError(Exception): pass class Sentence(object): def __init__(self, subject, verb, obj): # these are tuples, e.g. ('noun', 'bear') self.subject = subject[1] self.verb = verb[1] self.obj = obj[1] def __str__(self): return str(self.__dict__) def __eq__(self, other): return self.__dict__ == other.__dict__ ### MODULE-LEVEL FUNCTIONS def parse_sentence(word_list): try: subj = parse_subject(word_list) verb = parse_verb(word_list) obj = parse_object(word_list) sentence = Sentence(subj, verb, obj) return sentence except: print("Expecting a sentence of the form: Subject -> Verb -> Object") def parse_number(word_list): skip(word_list, 'stop') next_word_type = peek(word_list) if next_word_type == 'number': return match(word_list, 'number') else: raise ParserError("Expected a number next.") def parse_subject(word_list): skip(word_list, 'stop') next_word_type = peek(word_list) if next_word_type == 'noun': return match(word_list, 'noun') elif next_word_type == 'verb': return ('noun', 'player') else: raise ParserError("Expected a noun or verb next.") def parse_verb(word_list): skip(word_list, 'stop') next_word_type = peek(word_list) if next_word_type == 'verb': return match(word_list, 'verb') else: raise ParserError("Expected a verb next.") def parse_object(word_list): skip(word_list, 'stop') next_word_type = peek(word_list) if next_word_type == 'noun': return match(word_list, 'noun') elif next_word_type == 'direction': return match(word_list, 'direction') else: raise ParserError("Expected a noun or direction next.") ####### HELPERS ############ def peek(word_list): if word_list: word = word_list[0] #grab first word tuple word_type = word[0] #grab the type from the first slot return word_type else: return None # match has a front remove side-effect on word_list def match(word_list, expected_type): if word_list: word = word_list.pop(0) word_type = word[0] if word_type == expected_type: return word else: return None def skip(word_list, word_type): while peek(word_list) == word_type: match(word_list, word_type)
missed_list = list() for one_line in open("data/additional_data/missed_ontology"): one_line = one_line.strip() missed_list.append(one_line) f_w = open("data/test/20180405.txt", "w") for one_line in open("data/test/kill_me_plz_test.txt"): dead_flag = 0 one_line = one_line.strip() _, ontology_results = one_line.split("\t") if len(ontology_results.split()) != 3: dead_flag = 1 for one_ontology in ontology_results.split(): if one_ontology in missed_list: dead_flag = 1 if dead_flag == 0: f_w.write("%s\n" % one_line) f_w.close()
""" Escreva um programa que leia dois números. Imprima a divisão inteira do primeiro pelo segundo, assim como o resto da divisão. Utiliza apenas os operadores de soma e subtração para calcular o resultado. Lembre-se de que podemos entender o quociente da divisão de dois números como a quantidade de vezes que podemos retirar o divisor do dividendo. Logo, 20 / 4 = , uma vez que podemos subtrair 4 cinco vezes de 20 """ dividendo = int(input("Dividendo: ")) divisor = int(input("Divisor: ")) quociente = 0 x = dividendo while x >= divisor: x = x - divisor quociente = quociente + 1 resto = x print(f"{dividendo} / {divisor} = {quociente} (quociente) {resto} (resto)")
VERSION = "v0.0.1" def version(): return VERSION
DATABASES_ENGINE = 'django.db.backends.postgresql_psycopg2' DATABASES_NAME = 'spending' DATABASES_USER = 'postgres' DATABASES_PASSWORD = 'pg' DATABASES_HOST = '127.0.0.1' DATABASES_PORT = 5432
cont = total = 0 while True: num = int(input('Digite um valor[999 para parar]: ')) if num == 999: break cont += 1 total += num print(f'Foram digitados {cont} numeros e a soma entre eles é {total}')
# https://leetcode.com/problems/toeplitz-matrix/ # More elegant solution from leetcode # Time Complexity: O(M∗N) # Space Complexity: O(M+N class Solution(object): def isToeplitzMatrix(self, matrix): groups = {} for r, row in enumerate(matrix): for c, val in enumerate(row): if r-c not in groups: groups[r-c] = val elif groups[r-c] != val: return False return True # My solution # time complexity: O (m*n) # space complexity: constant?? not really allocating memory for anything new??? def main(matrix): row = len(matrix) col = len(matrix[0]) # can start from top left and explore the 1st row and 1st col #search_th = m + n - 1 dirs_s = [(0, 1), (1, 0)] x, y = 0, 0 top_x, top_y = 0, 0 curr_ind = 0 checking_sim = matrix [x] [y] count = 0 while(True): count += 1 future_xx = top_x + dirs_s [curr_ind] [0] future_yy = top_y + dirs_s [curr_ind] [1] if (x + 1 >= row or y + 1 >= col): # checking if diagonal is out of bounds top_x += dirs_s [curr_ind] [0] top_y += dirs_s [curr_ind] [1] if (future_xx >= row or future_yy >= col): # check if dirs_s is out of bounds curr_ind += 1 if (curr_ind >= 2): return True top_x = dirs_s [curr_ind] [0] top_y = dirs_s [curr_ind] [1] x = top_x y = top_y checking_sim = matrix [x][y] continue x = top_x y = top_y checking_sim = matrix [x][y] else: x += 1 y += 1 if (not matrix[x][y] == checking_sim): print(x,y,matrix[x][y], checking_sim) return False return True if __name__ == "__main__": print(main([[1,2,3,4],[5,1,2,3],[9,5,1,2]]))
''' (1) - Indique como um troco deve ser dado utilizando-se um número mínimo de notas. Seu algoritmo deve ler o valor da conta a ser paga e o valor do pagamento efetuado desprezando os centavos. Suponha que as notas para troco sejam as de 50, 20, 10, 5, 2 e 1 reais, e que nenhuma delas esteja em falta no caixa ''' valor_da_conta = float(input('Entre com o valor da conta: ')) troco = [50,20, 10, 5, 2, 1] cont = 0 while valor_da_conta > 0: n = valor_da_conta/troco[cont] valor_da_conta = valor_da_conta%troco[cont] if n != 0: print('%d notas de R$ %.2f' %(n, troco[cont])) cont += 1 #Logica: imprime o troco até chegar o valor da conta que foi digitado pelo "caixa"
# Bluerred Image Detection # # Author: Jasonsey # Email: [email protected] # # ============================================================================= """the common tools api"""
def encrypt(text, key): """Caesarchifferskryptering Args: text (_str_): Den text som ska krypteras. key (_int_): Hur många steg ska vi skifta? """ encrypted = "" # loop through the message char by char for char in text: # check if it's an upper case letter if char.isupper(): char_index = ord(char) - ord('A') # shift the current character by a key positions char_shifted = (char_index + key) % 26 + ord('A') char_new = chr(char_shifted) encrypted += char_new elif char.islower(): char_index = ord(char) - ord('a') # shift the current character by key positions char_shifted = (char_index + key) % 26 + ord('a') char_new = chr(char_shifted) encrypted += char_new elif char.isdigit(): # if it's a number, shift it's value char_new = (int(char) + key) % 10 encrypted += str(char_new) else: # if it's neither a letter or a number, leave as is encrypted += char return encrypted def main(): message = "Nille is into furry vore" encrypted_message = encrypt(message, 1) print(f"Message: {message}") print(f"Encrypted message with 1 shift: {encrypted_message}") if __name__ == "__main__": main()
# # PySNMP MIB module BLADESPPALT-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/BLADESPPALT-MIB # Produced by pysmi-0.3.4 at Wed May 1 11:39:07 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # Integer, OctetString, ObjectIdentifier = mibBuilder.importSymbols("ASN1", "Integer", "OctetString", "ObjectIdentifier") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ValueSizeConstraint, ConstraintsIntersection, SingleValueConstraint, ValueRangeConstraint, ConstraintsUnion = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueSizeConstraint", "ConstraintsIntersection", "SingleValueConstraint", "ValueRangeConstraint", "ConstraintsUnion") ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup") Counter64, IpAddress, iso, MibScalar, MibTable, MibTableRow, MibTableColumn, Counter32, Unsigned32, Bits, enterprises, Gauge32, ModuleIdentity, Integer32, TimeTicks, NotificationType, NotificationType, ObjectIdentity, MibIdentifier = mibBuilder.importSymbols("SNMPv2-SMI", "Counter64", "IpAddress", "iso", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "Counter32", "Unsigned32", "Bits", "enterprises", "Gauge32", "ModuleIdentity", "Integer32", "TimeTicks", "NotificationType", "NotificationType", "ObjectIdentity", "MibIdentifier") TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString") ibm = MibIdentifier((1, 3, 6, 1, 4, 1, 2)) ibmProd = MibIdentifier((1, 3, 6, 1, 4, 1, 2, 6)) supportProcessor = MibIdentifier((1, 3, 6, 1, 4, 1, 2, 6, 158)) mmRemoteSupTrapMIB = MibIdentifier((1, 3, 6, 1, 4, 1, 2, 6, 158, 3)) remoteSupTrapMibObjects = MibIdentifier((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1)) spTrapInfo = MibIdentifier((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1)) spTrapDateTime = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 1), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapDateTime.setStatus('mandatory') if mibBuilder.loadTexts: spTrapDateTime.setDescription('Timestamp of Local Date and Time when alert was generated') spTrapAppId = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 2), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapAppId.setStatus('mandatory') if mibBuilder.loadTexts: spTrapAppId.setDescription("Application ID, always 'BladeCenter Management Module'") spTrapSpTxtId = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 3), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapSpTxtId.setStatus('mandatory') if mibBuilder.loadTexts: spTrapSpTxtId.setDescription('SP System Identification - Text Identification') spTrapSysUuid = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 4), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapSysUuid.setStatus('mandatory') if mibBuilder.loadTexts: spTrapSysUuid.setDescription('Host System UUID(Universal Unique ID)') spTrapSysSern = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 5), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapSysSern.setStatus('mandatory') if mibBuilder.loadTexts: spTrapSysSern.setDescription('Host System Serial Number') spTrapAppType = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 6), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapAppType.setStatus('mandatory') if mibBuilder.loadTexts: spTrapAppType.setDescription('Application Alert Type - Event Number ID') spTrapPriority = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 7), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapPriority.setStatus('mandatory') if mibBuilder.loadTexts: spTrapPriority.setDescription('Alert Severity Value - Critical Alert(0) - Non-Critical Alert(2) - System Alert(4) - Recovery Alert(8) - Informational Only Alert(255)') spTrapMsgText = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 8), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapMsgText.setStatus('mandatory') if mibBuilder.loadTexts: spTrapMsgText.setDescription('Alert Message Text') spTrapHostContact = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 9), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapHostContact.setStatus('mandatory') if mibBuilder.loadTexts: spTrapHostContact.setDescription('Host Contact') spTrapHostLocation = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 10), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapHostLocation.setStatus('mandatory') if mibBuilder.loadTexts: spTrapHostLocation.setDescription('Host Location') spTrapBladeName = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 11), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapBladeName.setStatus('mandatory') if mibBuilder.loadTexts: spTrapBladeName.setDescription('Blade Name') spTrapBladeSern = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 12), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapBladeSern.setStatus('mandatory') if mibBuilder.loadTexts: spTrapBladeSern.setDescription('Blade Serial Number') spTrapBladeUuid = MibScalar((1, 3, 6, 1, 4, 1, 2, 6, 158, 3, 1, 1, 13), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: spTrapBladeUuid.setStatus('mandatory') if mibBuilder.loadTexts: spTrapBladeUuid.setDescription('Blade UUID(Universal Unique ID)') mmTrapTempC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,0)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapTempC.setDescription('Critical Alert: Temperature threshold exceeded.') mmTrapVoltC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,1)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapVoltC.setDescription('Critical Alert: Voltage threshold exceeded.') mmTrapTampC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,2)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapTampC.setDescription('Critical Alert: Physical intrusion of system has occurred.') mmTrapMffC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,3)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapMffC.setDescription('Critical Alert: Multiple fan failure.') mmTrapPsC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,4)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPsC.setDescription('Critical Alert: Power supply failure.') mTrapHdC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,5)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mTrapHdC.setDescription('Critical Alert: Hard disk drive failure.') mmTrapVrmC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,6)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapVrmC.setDescription('Critical Alert: Voltage Regulator Module(VRM) failure.') mmTrapSffC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,11)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapSffC.setDescription('Critical Alert: Single Fan failure.') mmTrapMsC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,31)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapMsC.setDescription('Critical Alert: Multiple switch module failure.') mmTrapIhcC = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,36)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapIhcC.setDescription('Critical Alert: Incompatible hardware configuration.') mmTrapRdpsN = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,10)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapRdpsN.setDescription('Non-Critical Alert: Redundant Power Supply failure.') mmTrapTempN = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,12)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapTempN.setDescription('Non-Critical Alert: Temperature threshold exceeded.') mmTrapVoltN = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,13)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapVoltN.setDescription('Non-Critical Alert: Voltage threshold exceeded.') mmTrapRmN = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,32)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapRmN.setDescription('Non-Critical Alert: Redundant module.') mmTrapSecDvS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,15)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapSecDvS.setDescription('System Alert: Secondary Device warning.') mmTrapPostToS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,20)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPostToS.setDescription('System Alert: Post Timeout value exceeded.') mmTrapOsToS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,21)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapOsToS.setDescription('System Alert: OS Timeout value exceeded.') mmTrapAppS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,22)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapAppS.setDescription('System Alert: Application Alert.') mmTrapPoffS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,23)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPoffS.setDescription('System Alert: Power Off.') mmTrapPonS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,24)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPonS.setDescription('System Alert: Power On.') mmTrapBootS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,25)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapBootS.setDescription('System Alert: System Boot Failure.') mmTrapLdrToS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,26)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapLdrToS.setDescription('System Alert: OS Loader Timeout.') mmTrapPFAS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,27)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPFAS.setDescription('System Alert: Predictive Failure Analysis(PFA) information.') mmTrapKVMSwitchS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,33)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapKVMSwitchS.setDescription('System Alert: Keyboard/Video/Mouse(KVM) or Medial Tray(MT) switching failure.') mmTrapSysInvS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,34)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapSysInvS.setDescription('System Alert: Inventory.') mmTrapSysLogS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,35)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapSysLogS.setDescription('System Alert: System Log 75% full.') mmTrapNwChangeS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,37)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapNwChangeS.setDescription('System Alert: Network change notification.') mmTrapBlThrS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,39)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapBlThrS.setDescription('System Alert: Blade Throttle') mmTrapPwrMgntS = NotificationType((1, 3, 6, 1, 4, 1, 2, 6, 158, 3) + (0,40)).setObjects(("BLADESPPALT-MIB", "spTrapDateTime"), ("BLADESPPALT-MIB", "spTrapAppId"), ("BLADESPPALT-MIB", "spTrapSpTxtId"), ("BLADESPPALT-MIB", "spTrapSysUuid"), ("BLADESPPALT-MIB", "spTrapSysSern"), ("BLADESPPALT-MIB", "spTrapAppType"), ("BLADESPPALT-MIB", "spTrapPriority"), ("BLADESPPALT-MIB", "spTrapMsgText"), ("BLADESPPALT-MIB", "spTrapHostContact"), ("BLADESPPALT-MIB", "spTrapHostLocation"), ("BLADESPPALT-MIB", "spTrapBladeName"), ("BLADESPPALT-MIB", "spTrapBladeSern"), ("BLADESPPALT-MIB", "spTrapBladeUuid")) if mibBuilder.loadTexts: mmTrapPwrMgntS.setDescription('System Alert: Power Management') mibBuilder.exportSymbols("BLADESPPALT-MIB", spTrapHostContact=spTrapHostContact, mmTrapVrmC=mmTrapVrmC, mmTrapOsToS=mmTrapOsToS, mmTrapPostToS=mmTrapPostToS, mmTrapSysInvS=mmTrapSysInvS, mmTrapNwChangeS=mmTrapNwChangeS, mmTrapTempN=mmTrapTempN, mmTrapKVMSwitchS=mmTrapKVMSwitchS, mmRemoteSupTrapMIB=mmRemoteSupTrapMIB, mmTrapVoltN=mmTrapVoltN, spTrapInfo=spTrapInfo, spTrapSpTxtId=spTrapSpTxtId, mmTrapBlThrS=mmTrapBlThrS, mmTrapBootS=mmTrapBootS, remoteSupTrapMibObjects=remoteSupTrapMibObjects, mmTrapLdrToS=mmTrapLdrToS, spTrapSysSern=spTrapSysSern, spTrapHostLocation=spTrapHostLocation, supportProcessor=supportProcessor, mmTrapTempC=mmTrapTempC, mmTrapAppS=mmTrapAppS, spTrapAppType=spTrapAppType, mmTrapMsC=mmTrapMsC, mmTrapRmN=mmTrapRmN, spTrapAppId=spTrapAppId, mmTrapSecDvS=mmTrapSecDvS, ibm=ibm, mmTrapPFAS=mmTrapPFAS, mmTrapRdpsN=mmTrapRdpsN, mmTrapSffC=mmTrapSffC, ibmProd=ibmProd, spTrapMsgText=spTrapMsgText, mmTrapPonS=mmTrapPonS, mmTrapIhcC=mmTrapIhcC, mmTrapPoffS=mmTrapPoffS, spTrapBladeName=spTrapBladeName, spTrapDateTime=spTrapDateTime, mmTrapPwrMgntS=mmTrapPwrMgntS, mmTrapTampC=mmTrapTampC, mmTrapSysLogS=mmTrapSysLogS, mmTrapPsC=mmTrapPsC, mmTrapVoltC=mmTrapVoltC, spTrapPriority=spTrapPriority, mTrapHdC=mTrapHdC, spTrapBladeSern=spTrapBladeSern, spTrapBladeUuid=spTrapBladeUuid, spTrapSysUuid=spTrapSysUuid, mmTrapMffC=mmTrapMffC)
with open('input.txt') as f: lines = f.readlines() depth_increased = 0 for i in range(len(lines)): if (i == 0): # don't check first sonar input continue if (int(lines[i]) > int(lines[i-1])): depth_increased = depth_increased + 1 print(depth_increased) # 1559
numeros = [] manpl = [] menpl = [] for c1 in range(0, 5): n = float(input('Escreve um número: ')) numeros += [n] man = max(numeros) men = min(numeros) manv = numeros.count(man) menv = numeros.count(men) a1 = a2 = 0 for c2 in range(0, manv): manp = numeros.index(man, a1) manpl += [manp + 1] a1 = manp + 1 for c3 in range(0, menv): menp = numeros.index(men, a2) menpl += [menp + 1] a2 = menp + 1 print(f'''O maior número é {man} e foi escrito na(s) posição(ões): {', '.join(str(x) for x in manpl)} O menor número é {men} e foi escrito na(s) posição(ões): {', '.join(str(x) for x in menpl)}''')
#!/usr/bin/python3 """ Contains the inherits_from function """ def inherits_from(obj, a_class): """returns true if obj is a subclass of a_class, otherwise false""" return(issubclass(type(obj), a_class) and type(obj) != a_class)
""" MappingEntry """ class MappingEntry(object): """ Defines what will be saved in the MapStorage. A MappingEntry represents a connection between a custom currency address and a Waves address. """ DICT_COIN_KEY = 'coin' DICT_WAVES_KEY = 'waves' def __init__(self, waves_address: str, coin_address: str) -> None: self._waves_address = waves_address self._coin_address = coin_address @property def waves_address(self) -> str: return self._waves_address @property def coin_address(self) -> str: return self._coin_address def __str__(self): return "Coin(" + str(self._coin_address) + ")" + " -> " + "Waves(" + str(self._waves_address) + ")" def __eq__(self, other): return self.waves_address == other.waves_address and self.coin_address == other.coin_address
# Атрибуты класса, которые являются функциями, -- это такие же # атрибуты класса, как и переменные. Это можно увидеть на # следующем примере. def outer_method(self): print('I am a method of object', self) class MyClass: method = outer_method obj = MyClass() obj.method()
print('=' * 30) print('10 PRIMEIROS TERMOS DE UMA PA') print('=' * 30) t = int(input('Primeiro termo: ')) r = int(input('Razão: ')) d = t + (10 - 1) * r for c in range(t, d + r, r): print('{}'.format(c), end=' >') print('ACABOU!')
# Main App def MyFunc(): print() print('='80) print(f'[VerifyOS for Windows] - Em execução...') print('='80) MyFunc()
WORD_TYPES = { "north" : "direction", "south" : "direction", "east" : "direction", "west" : "direction", "go" : "verb", "kill" : "verb", "eat" : "verb", "the" : "stop", "in" : "stop", "of" : "stop", "bear" : "noun", "princess" : "noun", } def convert_number(word): try: return int(word) except: return None def scan(sentence): words = sentence.split() results = [] for word in words: word_type = WORD_TYPES.get(word) if word_type == None: # it might be a number, so try converting number = convert_number(word) if number != None: results.append(('number', number)) else: results.append(('error', word)) else: results.append((word_type, word)) return results
def reader(values): f=open("level1.txt", "r") # N=no. of lines #x = the position from which the substring must begin x=values[0] x-=1 #y=the position at which the substring should end list1=[] for line in range(values[2]): j=f.readline() t=j[values[0]:values[1]] list1.append(t) return list1
class Solution: # Use functions to convert all to numerical value (Accepted), O(n) time and space def isSumEqual(self, a: str, b: str, t: str) -> bool: def letter_val(letter): return ord(letter) - ord('a') def numerical_val(word): s = '' for c in word: s += str(letter_val(c)) return int(s) return numerical_val(a) + numerical_val(b) == numerical_val(t) # Minus 49 (Top Voted), O(n) time and space def isSumEqual(self, first: str, second: str, target: str) -> bool: def op(s: str): return "".join(chr(ord(ch) - 49) for ch in s) return int(op(first)) + int(op(second)) == int(op(target))
def CounterClosure(init=0): value = [init] def Inc(): value[0] += 1 return value[0] return Inc class CounterClass: def __init__(self, init=0): self.value = init def Bump(self): self.value += 1 return self.value def CounterIter(init = 0): while True: init += 1 yield init if __name__ == '__main__': c1 = CounterClosure() c2 = CounterClass() c3 = CounterIter() assert(c1() == c2.Bump() == next(c3)) assert(c1() == c2.Bump() == next(c3)) assert(c1() == c2.Bump() == next(c3))
"""Faça um programa em Python que receba (entrada de dados) o valor correspondente ao lado de um quadrado, calcule e imprima (saída de dados) seu perímetro e sua área.""" lado = int(input("Lado: ")) area = lado ** 2 perimetro = lado * 4 print("perímetro: {} - área: {}" .format(perimetro, area))
# 2018-6-12 # Two sum class Solution(object): def twoSum(self, nums, target): """ :type nums: List[int] :type target: int :rtype: List[int] """ result = [] leng = len(nums) i = 0 while i < leng - 1: j = i + 1 while j < leng: if nums[i] + nums[j] == target: result.append(i) result.append(j) return result j += 1 i += 1 return -1 nums = [3,2,4] target = 6 s = Solution() r = s.twoSum(nums,target) print(r)
def commaCode(inputList): myString = '' for i in inputList: if (inputList.index(i) == (len(inputList) - 1)): myString = myString + 'and ' + str(i) else: myString = myString + str(i) + ', ' return myString inputValue = '' spam = [] print('Insert next list member. Finish by an empty line!') inputValue = input() while (inputValue != ''): spam.append(inputValue); print('Insert next list member. Finish by an empty line!') inputValue = input() print(commaCode(spam))
# Copyright (c) Pymatgen Development Team. # Distributed under the terms of the MIT License. """ The borg package contains modules that assimilate large quantities of data into pymatgen objects for analysis. """
''' Date: 2021-08-14 10:34:24 LastEditors: Liuliang LastEditTime: 2021-08-14 11:55:32 Description: ''' # 原始版本 def _bs(nums, target): low, high = 0, len(nums)-1 while low <= high: mid = low + (high - low) // 2 if nums[mid] == target: return mid elif nums[mid] < target: low = mid + 1 else: high = mid - 1 return -1 # 左边第一个 def _bs(nums, target): low, high = 0, len(nums)-1 while low <= high: mid = low + (high - low) // 2 if nums[mid] < target: low = mid + 1 elif nums[mid] > target: high = mid - 1 else: if mid == 0 or nums[mid-1] != target: return mid else: high = mid - 1 return -1 # 右边最后一个 def _bs(nums, target): low, high = 0, len(nums)-1 while low <= high: mid = low + (high - low) // 2 if nums[mid] < target: low = mid + 1 elif nums[mid] > target: high = mid - 1 else: if mid == len(nums) - 1 or nums[mid+1] != target: return mid else: low = mid + 1 return -1 # 第一个大于等于给定元素 def _bs(nums, target): low, high = 0, len(nums)-1 while low <= high: mid = low + (high - low) // 2 if nums[mid] < target: low = mid + 1 else: if mid == 0 or nums[mid-1] < target: return mid else: high = mid - 1 return -1 # 查找最后⼀个⼩于等于给定值的元素 def _bs(nums, target): low, high = 0, len(nums) - 1 while low <= high: mid = low + (high - low) // 2 if nums[mid] > target: high = mid - 1 else: if mid == len(nums) - 1 or nums[mid + 1] > target: return mid else: low = mid + 1 list = [1,2,3,5,5,5,6,7] print(_bs(list,5))
def my_reverse(lst): new_lst = [] count = len(lst) - 1 while count >= 0: new_lst.append(lst[count]) count -= 1 return new_lst
#!/usr/bin/env python3 # -- coding: utf-8 -- """Problem 062 ginortS Source : https://www.hackerrank.com/challenges/ginorts/problem """ s = input() def custom_index(c): i = ord(c) if i in range(65,91): i += 100 elif i in range(48,58): if i%2: i += 200 else: i += 300 return i print(''.join(sorted(s, key=lambda c: custom_index(c)))) # other solution print(*sorted(input(), key=lambda c: (-ord(c) >> 5, c in '02468', c)), sep='') # bin(ord('z')) => '0b1111010' # bin(ord('z')) >> 5 => '0b11 # -ord('z') >> 5 >> 5 => -4 # -ord('Z') >> 5 >> 5 => -3 # -ord('0') >> 5 >> 5 => -2
""" File generated by export_config.cpp. Do not edit directly. Exports maps for: config_to_input_pages config_to_modules config_to_eqn_variables config_to_cb_cmods SSC Version: 205 Date: Sat Feb 23 13:57:48 2019 """ # List of Variables that are used in equations # ui_form_to_eqn_var_map = { 'Electric Building Load Calculator': { ('load_1', 'load_2', 'load_3', 'load_4', 'load_5', 'load_6', 'load_7', 'load_8', 'load_9', 'load_10', 'load_11', 'load_12'): ('Monthly_util', 'monthly_load'), ('load_model'): ('en_belpe'), ('escal_input_belpe'): ('escal_belpe') }, 'Thermal Load': { ('thermal_load_user_data', 'normalize_to_thermal_bill', 'thermal_bill_data', 'thermal_scale_factor'): ('thermal_1', 'thermal_peak_1', 'thermal_2', 'thermal_peak_2', 'thermal_3', 'thermal_peak_3', 'thermal_4', 'thermal_peak_4', 'thermal_5', 'thermal_peak_5', 'thermal_6', 'thermal_peak_6', 'thermal_7', 'thermal_peak_7', 'thermal_8', 'thermal_peak_8', 'thermal_9', 'thermal_peak_9', 'thermal_10', 'thermal_peak_10', 'thermal_11', 'thermal_peak_11', 'thermal_12', 'thermal_peak_12', 'thermal_load', 'thermal_load_annual_total', 'thermal_annual_peak') }, 'ISCC Parasitics': { (): ('bop_array'), ('bop_par', 'bop_par_f', 'bop_par_0', 'bop_par_1', 'bop_par_2', 'W_dot_solar_des'): ('csp.pt.par.calc.bop'), ('pb_fixed_par', 'fossil_output', 'W_dot_solar_des'): ('pb_fixed_par_mwe') }, 'ISCC Receiver and Powerblock': { ('ngcc_model', 'q_pb_design', 'pinch_point_coldside', 'pinch_point_hotside', 'elev', 'rec_htf', 'field_fl_props'): ('W_dot_solar_des', 'T_htf_cold_des', 'fossil_output', 'max_solar_design', 'T_steam_sh_out_des'), (): ('ngcc_model'), ('nameplate'): ('system_capacity'), ('T_steam_sh_out_des', 'pinch_point_hotside'): ('T_htf_hot_des'), ('W_dot_solar_des'): ('nameplate') }, 'PV Losses': { ('subarray3_soiling'): ('subarray3_soiling_annual_average'), ('subarray2_soiling'): ('subarray2_soiling_annual_average'), ('subarray4_mismatch_loss', 'subarray4_diodeconn_loss', 'subarray4_dcwiring_loss', 'subarray4_tracking_loss', 'subarray4_nameplate_loss', 'dcoptimizer_loss'): ('subarray4_dcloss'), ('subarray1_soiling'): ('subarray1_soiling_annual_average'), ('subarray4_soiling'): ('subarray4_soiling_annual_average'), ('subarray3_mismatch_loss', 'subarray3_diodeconn_loss', 'subarray3_dcwiring_loss', 'subarray3_tracking_loss', 'subarray3_nameplate_loss', 'dcoptimizer_loss'): ('subarray3_dcloss'), ('subarray2_mismatch_loss', 'subarray2_diodeconn_loss', 'subarray2_dcwiring_loss', 'subarray2_tracking_loss', 'subarray2_nameplate_loss', 'dcoptimizer_loss'): ('subarray2_dcloss'), ('subarray1_mismatch_loss', 'subarray1_diodeconn_loss', 'subarray1_dcwiring_loss', 'subarray1_tracking_loss', 'subarray1_nameplate_loss', 'dcoptimizer_loss'): ('subarray1_dcloss') }, 'Inverter CEC Coefficient Generator': { ('inv_cec_cg_vdco', 'inv_cec_cg_pdco', 'inv_cec_cg_psco', 'inv_cec_cg_paco', 'inv_cec_cg_c0', 'inv_cec_cg_c1', 'inv_cec_cg_c2', 'inv_cec_cg_c3'): ('inv_cec_cg_eff_cec', 'inv_cec_cg_eff_euro') }, 'CEC Performance Model with User Entered Specifications': { ('6par_bvoc_units', '6par_bvoc_display', '6par_voc'): ('6par_bvoc'), ('6par_aisc_units', '6par_aisc_display', '6par_isc'): ('6par_aisc'), ('6par_vmp', '6par_imp'): ('6par_pmp'), ('6par_vmp', '6par_imp', '6par_area'): ('6par_mpeff') }, 'Simple Efficiency Module Model': { ('spe_reference', 'spe_eff0', 'spe_rad0', 'spe_eff1', 'spe_rad1', 'spe_eff2', 'spe_rad2', 'spe_eff3', 'spe_rad3', 'spe_eff4', 'spe_rad4', 'spe_area'): ('spe_power') }, 'Financial Debt Residential': { ('real_discount_rate', 'inflation_rate', 'debt_fraction', 'federal_tax_rate', 'state_tax_rate', 'loan_rate'): ('ui_wacc'), (): ('market'), ('ui_net_capital_cost', 'debt_fraction'): ('loan_amount'), ('total_installed_cost', 'ibi_fed_amount', 'ibi_sta_amount', 'ibi_uti_amount', 'ibi_oth_amount', 'ibi_fed_percent', 'ibi_fed_percent_maxvalue', 'ibi_sta_percent', 'ibi_sta_percent_maxvalue', 'ibi_uti_percent', 'ibi_uti_percent_maxvalue', 'ibi_oth_percent', 'ibi_oth_percent_maxvalue', 'system_capacity', 'cbi_fed_amount', 'cbi_fed_maxvalue', 'cbi_sta_amount', 'cbi_sta_maxvalue', 'cbi_uti_amount', 'cbi_uti_maxvalue', 'cbi_oth_amount', 'cbi_oth_maxvalue'): ('ui_net_capital_cost') }, 'Phys Trough Solar Field': { ('T_loop_out'): ('SF_COPY_T_loop_out_des'), ('specified_q_dot_rec_des'): ('SF_COPY_specified_q_dot_rec_des'), ('trough_loop_control'): ('SCAInfoArray'), ('fixed_land_area', 'non_solar_field_land_area_multiplier'): ('total_land_area'), ('q_pb_design', 'I_bn_des', 'total_loop_conversion_efficiency'): ('total_required_aperture_for_SM1'), ('nSCA', 'nLoops', 'SCA_drives_elec'): ('total_tracking_power'), ('total_aperture', 'Row_Distance', 'max_collector_width'): ('fixed_land_area'), ('combo_htf_type'): ('Fluid'), ('I_bn_des', 'total_loop_conversion_efficiency', 'total_aperture'): ('field_thermal_output'), ('trough_loop_control', 'csp_dtr_sca_calc_sca_eff_1', 'csp_dtr_sca_calc_sca_eff_2', 'csp_dtr_sca_calc_sca_eff_3', 'csp_dtr_sca_calc_sca_eff_4', 'csp_dtr_sca_length_1', 'csp_dtr_sca_length_2', 'csp_dtr_sca_length_3', 'csp_dtr_sca_length_4', 'csp_dtr_hce_optical_eff_1', 'csp_dtr_hce_optical_eff_2', 'csp_dtr_hce_optical_eff_3', 'csp_dtr_hce_optical_eff_4'): ('loop_optical_efficiency'), ('total_required_aperture_for_SM1', 'single_loop_aperature'): ('required_number_of_loops_for_SM1'), ('m_dot_htfmax', 'fluid_dens_outlet_temp', 'min_inner_diameter'): ('max_field_flow_velocity'), ('trough_loop_control'): ('SCADefocusArray'), ('T_loop_in_des'): ('SF_COPY_T_loop_in_des'), ('single_loop_aperature', 'nLoops'): ('total_aperture'), ('trough_loop_control', 'csp_dtr_hce_diam_absorber_inner_1', 'csp_dtr_hce_diam_absorber_inner_2', 'csp_dtr_hce_diam_absorber_inner_3', 'csp_dtr_hce_diam_absorber_inner_4'): ('min_inner_diameter'), ('I_bn_des'): ('SF_COPY_I_bn_des'), ('m_dot_htfmin', 'fluid_dens_inlet_temp', 'min_inner_diameter'): ('min_field_flow_velocity'), ('combo_FieldConfig'): ('FieldConfig'), ('specified_solar_multiple', 'total_required_aperture_for_SM1', 'single_loop_aperature'): ('nLoops'), ('trough_loop_control', 'I_bn_des', 'csp_dtr_hce_design_heat_loss_1', 'csp_dtr_hce_design_heat_loss_2', 'csp_dtr_hce_design_heat_loss_3', 'csp_dtr_hce_design_heat_loss_4', 'csp_dtr_sca_length_1', 'csp_dtr_sca_length_2', 'csp_dtr_sca_length_3', 'csp_dtr_sca_length_4', 'csp_dtr_sca_aperture_1', 'csp_dtr_sca_aperture_2', 'csp_dtr_sca_aperture_3', 'csp_dtr_sca_aperture_4'): ('cspdtr_loop_hce_heat_loss'), ('trough_loop_control', 'csp_dtr_sca_aperture_1', 'csp_dtr_sca_aperture_2', 'csp_dtr_sca_aperture_3', 'csp_dtr_sca_aperture_4'): ('single_loop_aperature'), ('specified_solar_multiple'): ('SF_COPY_specified_solar_multiple'), ('combo_htf_type', 'Fluid', 'T_loop_in_des', 'T_loop_out', 'field_fl_props'): ('field_htf_cp_avg'), ('field_thermal_output', 'q_pb_design'): ('solar_mult'), ('loop_optical_efficiency', 'cspdtr_loop_hce_heat_loss'): ('total_loop_conversion_efficiency'), (): ('defocus') }, 'Phys Trough System Design': { ('field_thermal_output'): ('SD_COPY_field_thermal_output'), ('solar_mult'): ('SD_COPY_solar_mult'), ('specified_solar_multiple', 'q_pb_design'): ('specified_q_dot_rec_des'), ('nLoops'): ('SD_COPY_nLoops'), ('total_aperture'): ('SD_COPY_total_aperture'), ('specified_q_dot_rec_des'): ('system_capacity') }, 'Financial Analysis Host Developer Parameters': { ('host_real_discount_rate', 'inflation_rate'): ('host_nominal_discount_rate'), ('real_discount_rate', 'inflation_rate'): ('nominal_discount_rate') }, 'PV Capital Costs': { ('battery_energy', 'battery_per_kWh', 'battery_power', 'battery_per_kW'): ('battery_total'), ('en_batt', 'batt_power_discharge_max', 'batt_simple_enable', 'batt_simple_kw'): ('battery_power'), ('system_use_lifetime_output'): ('system_use_recapitalization'), ('module_total', 'inverter_total', 'battery_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total'): ('subtotal_direct'), ('total_installed_cost', 'modulearray_power'): ('installed_per_capacity'), ('inverter_costunits', 'inverter_num_units', 'inverter_power', 'module_num_units', 'module_power', 'per_inverter'): ('inverter_total'), ('bos_equip_fixed', 'modulearray_power', 'bos_equip_perwatt', 'modulearray_area', 'bos_equip_perarea'): ('bos_equip_total'), ('grid_percent', 'total_direct_cost', 'modulearray_power', 'grid_per_watt', 'grid_fixed'): ('grid_total'), ('install_labor_fixed', 'modulearray_power', 'install_labor_perwatt', 'modulearray_area', 'install_labor_perarea'): ('install_labor_total'), ('total_land_area'): ('modulearray_area'), ('inverter_power', 'inverter_num_units'): ('inverterarray_power'), ('inverter_count'): ('inverter_num_units'), ('landprep_per_acre', 'land_area_value', 'landprep_percent', 'total_direct_cost', 'modulearray_power', 'landprep_per_watt', 'landprep_fixed'): ('landprep_total'), ('total_modules'): ('module_num_units'), ('sales_tax_value', 'total_direct_cost', 'sales_tax_percent'): ('sales_tax_total'), ('land_per_acre', 'land_area_value', 'land_percent', 'total_direct_cost', 'modulearray_power', 'land_per_watt', 'land_fixed'): ('land_total'), ('permitting_total', 'engr_total', 'grid_total', 'land_total', 'landprep_total', 'sales_tax_total'): ('total_indirect_cost'), ('module_power', 'module_num_units'): ('modulearray_power'), ('install_margin_fixed', 'modulearray_power', 'install_margin_perwatt', 'modulearray_area', 'install_margin_perarea'): ('install_margin_total'), ('permitting_percent', 'total_direct_cost', 'modulearray_power', 'permitting_per_watt', 'permitting_fixed'): ('permitting_total'), ('system_capacity', 'dc_ac_ratio', 'inverter_model', 'inv_snl_paco', 'inv_ds_paco', 'inv_pd_paco', 'inv_cec_cg_paco'): ('inverter_power'), ('module_total', 'inverter_total', 'battery_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total', 'contingency'): ('total_direct_cost'), ('contingency_percent', 'module_total', 'inverter_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total', 'battery_total'): ('contingency'), ('en_batt', 'batt_computed_bank_capacity', 'batt_simple_enable', 'batt_simple_kwh'): ('battery_energy'), ('sales_tax_rate'): ('sales_tax_value'), ('system_capacity', 'module_model', 'spe_power', 'cec_p_mp_ref', '6par_pmp', 'snl_ref_pmp', 'sd11par_Pmp0'): ('module_power'), ('module_costunits', 'module_num_units', 'module_power', 'per_module'): ('module_total'), ('total_land_area'): ('land_area_value'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('engr_percent', 'total_direct_cost', 'modulearray_power', 'engr_per_watt', 'engr_fixed'): ('engr_total') }, 'Thermal Rate': { ('thermal_buy_rate_option', 'thermal_buy_rate_flat', 'thermal_timestep_buy_rate', 'thermal_sell_rate_option', 'thermal_sell_rate_flat', 'thermal_timestep_sell_rate'): ('thermal_buy_rate', 'thermal_sell_rate') }, 'Fuel Cell O and M Costs': { ('batt_computed_bank_capacity'): ('om_capacity1_nameplate'), (): ('add_om_num_types'), ('fuelcell_power_nameplate'): ('om_capacity2_nameplate'), ('fc_fuel_cost', 'om_fuel_price_units'): ('om_fuel_cost') }, 'Fuel Cell Costs': { ('fuelcell_power_total', 'fuelcell_per_kW'): ('fuelcell_total'), ('battery_energy', 'battery_per_kWh', 'battery_power', 'battery_per_kW'): ('battery_total'), ('en_batt', 'batt_power_discharge_max', 'batt_simple_enable', 'batt_simple_kw'): ('battery_power'), ('system_use_lifetime_output'): ('system_use_recapitalization'), ('module_total', 'inverter_total', 'battery_total', 'fuelcell_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total'): ('subtotal_direct'), ('total_installed_cost', 'modulearray_power'): ('installed_per_capacity'), ('inverter_costunits', 'inverter_num_units', 'inverter_power', 'module_num_units', 'module_power', 'per_inverter'): ('inverter_total'), ('bos_equip_fixed', 'modulearray_power', 'bos_equip_perwatt', 'battery_power', 'bos_equip_battperkw', 'fuelcell_power_nameplate', 'bos_equip_fcperkw', 'modulearray_area', 'bos_equip_perarea'): ('bos_equip_total'), ('grid_percent', 'total_direct_cost', 'modulearray_power', 'grid_per_watt', 'battery_power', 'grid_per_battkw', 'fuelcell_power_nameplate', 'grid_per_fckw', 'grid_fixed'): ('grid_total'), ('install_labor_fixed', 'modulearray_power', 'install_labor_perwatt', 'battery_power', 'install_labor_battperkw', 'fuelcell_power_nameplate', 'install_labor_fcperkw', 'modulearray_area', 'install_labor_perarea'): ('install_labor_total'), ('total_land_area'): ('modulearray_area'), ('inverter_power', 'inverter_num_units'): ('inverterarray_power'), ('inverter_count'): ('inverter_num_units'), ('landprep_per_acre', 'land_area_value', 'landprep_percent', 'total_direct_cost', 'modulearray_power', 'landprep_per_watt', 'battery_power', 'landprep_per_battkw', 'fuelcell_power_nameplate', 'landprep_per_fckw', 'landprep_fixed'): ('landprep_total'), ('total_modules'): ('module_num_units'), ('sales_tax_value', 'total_direct_cost', 'sales_tax_percent'): ('sales_tax_total'), ('land_per_acre', 'land_area_value', 'land_percent', 'total_direct_cost', 'modulearray_power', 'land_per_watt', 'battery_power', 'land_per_battkw', 'fuelcell_power_nameplate', 'land_per_fckw', 'land_fixed'): ('land_total'), ('permitting_total', 'engr_total', 'grid_total', 'land_total', 'landprep_total', 'sales_tax_total'): ('total_indirect_cost'), ('module_power', 'module_num_units'): ('modulearray_power'), ('install_margin_fixed', 'modulearray_power', 'install_margin_perwatt', 'battery_power', 'install_margin_battperkw', 'fuelcell_power_nameplate', 'install_margin_fcperkw', 'modulearray_area', 'install_margin_perarea'): ('install_margin_total'), ('permitting_percent', 'total_direct_cost', 'modulearray_power', 'permitting_per_watt', 'battery_power', 'permitting_per_battkw', 'fuelcell_power_nameplate', 'permitting_per_fckw', 'permitting_fixed'): ('permitting_total'), ('system_capacity', 'dc_ac_ratio', 'inverter_model', 'inv_snl_paco', 'inv_ds_paco', 'inv_pd_paco', 'inv_cec_cg_paco'): ('inverter_power'), ('module_total', 'inverter_total', 'battery_total', 'fuelcell_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total', 'contingency'): ('total_direct_cost'), ('contingency_percent', 'module_total', 'inverter_total', 'bos_equip_total', 'install_labor_total', 'install_margin_total'): ('contingency'), ('fuelcell_power_nameplate'): ('fuelcell_power_total'), ('en_batt', 'batt_computed_bank_capacity', 'batt_simple_enable', 'batt_simple_kwh'): ('battery_energy'), ('sales_tax_rate'): ('sales_tax_value'), ('system_capacity', 'module_model', 'spe_power', 'cec_p_mp_ref', '6par_pmp', 'snl_ref_pmp', 'sd11par_Pmp0'): ('module_power'), ('module_costunits', 'module_num_units', 'module_power', 'per_module'): ('module_total'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('engr_percent', 'total_direct_cost', 'modulearray_power', 'engr_per_watt', 'battery_power', 'engr_per_battkw', 'fuelcell_power_nameplate', 'engr_per_fckw', 'engr_fixed'): ('engr_total') }, 'Fuel Cell Dispatch Manual': { ('dispatch_manual_fuelcelldischarge', 'fc_discharge_units_1', 'fc_discharge_units_2', 'fc_discharge_units_3', 'fc_discharge_units_4', 'fc_discharge_units_5', 'fc_discharge_units_6'): ('dispatch_manual_units_fc_discharge'), ('dispatch_manual_fuelcelldischarge', 'fc_discharge_percent_1', 'fc_discharge_percent_2', 'fc_discharge_percent_3', 'fc_discharge_percent_4', 'fc_discharge_percent_5', 'fc_discharge_percent_6'): ('dispatch_manual_percent_fc_discharge'), ('dispatch_manual_gridcharge', 'batt_gridcharge_percent_1', 'batt_gridcharge_percent_2', 'batt_gridcharge_percent_3', 'batt_gridcharge_percent_4', 'batt_gridcharge_percent_5', 'batt_gridcharge_percent_6'): ('dispatch_manual_percent_gridcharge'), ('fc.storage.p1.charge', 'fc.storage.p2.charge', 'fc.storage.p3.charge', 'fc.storage.p4.charge', 'fc.storage.p5.charge', 'fc.storage.p6.charge'): ('dispatch_manual_fuelcellcharge'), ('dispatch_manual_discharge', 'batt_discharge_percent_1', 'batt_discharge_percent_2', 'batt_discharge_percent_3', 'batt_discharge_percent_4', 'batt_discharge_percent_5', 'batt_discharge_percent_6'): ('dispatch_manual_percent_discharge'), ('pv.storage.p1.gridcharge', 'pv.storage.p2.gridcharge', 'pv.storage.p3.gridcharge', 'pv.storage.p4.gridcharge', 'pv.storage.p5.gridcharge', 'pv.storage.p6.gridcharge'): ('dispatch_manual_gridcharge'), ('fc.p1.discharge', 'fc.p2.discharge', 'fc.p3.discharge', 'fc.p4.discharge', 'fc.p5.discharge', 'fc.p6.discharge'): ('dispatch_manual_fuelcelldischarge'), ('pv.storage.p1.discharge', 'pv.storage.p2.discharge', 'pv.storage.p3.discharge', 'pv.storage.p4.discharge', 'pv.storage.p5.discharge', 'pv.storage.p6.discharge'): ('dispatch_manual_discharge'), ('pv.storage.p1.charge', 'pv.storage.p2.charge', 'pv.storage.p3.charge', 'pv.storage.p4.charge', 'pv.storage.p5.charge', 'pv.storage.p6.charge'): ('dispatch_manual_charge') }, 'Fuel Cell Dispatch': { ('fuelcell_dispatch_input', 'fuelcell_dispatch_input_units', 'fuelcell_unit_max_power'): ('fuelcell_dispatch') }, 'PVWatts': { ('en_user_spec_losses', 'losses_user', 'loss_soiling', 'loss_shading', 'loss_snow', 'loss_mismatch', 'loss_wiring', 'loss_conn', 'loss_lid', 'loss_nameplate', 'loss_age', 'loss_avail'): ('losses'), ('system_capacity', 'dc_ac_ratio'): ('ac_nameplate') }, 'Solar Water Heating': { ('draw', 'use_draw_scaling', 'daily_draw'): ('scaled_draw', 'annual_draw'), ('coll_mode', 'user_test_fluid', 'srcc_test_fluid'): ('test_fluid'), ('area_coll', 'ncoll', 'FRta', 'FRUL'): ('system_capacity'), ('coll_mode', 'user_FRUL', 'srcc_FRUL'): ('FRUL'), ('coll_mode', 'user_FRta', 'srcc_FRta'): ('FRta'), ('coll_mode', 'user_iam', 'srcc_iam'): ('iam'), ('coll_mode', 'user_area_coll', 'srcc_area'): ('area_coll'), ('coll_mode', 'user_test_flow', 'srcc_test_flow'): ('test_flow'), ('area_coll', 'ncoll'): ('total_area') }, 'Geothermal Power Block': { (): ('HTF'), (): ('degradation'), ('analysis_period'): ('geothermal_analysis_period'), ('geopowerblock.pwrb.condenser_type'): ('CT'), ('design_temp'): ('T_htf_hot_ref') }, 'Geothermal Plant and Equipment': { ('gross_output'): ('system_capacity'), ('nameplate', 'resource_type', 'resource_temp', 'resource_depth', 'geothermal_analysis_period', 'model_choice', 'analysis_type', 'num_wells', 'conversion_type', 'plant_efficiency_input', 'conversion_subtype', 'decline_type', 'temp_decline_rate', 'temp_decline_max', 'wet_bulb_temp', 'ambient_pressure', 'well_flow_rate', 'pump_efficiency', 'delta_pressure_equip', 'excess_pressure_pump', 'well_diameter', 'casing_size', 'inj_well_diam', 'design_temp', 'specify_pump_work', 'specified_pump_work_amount', 'rock_thermal_conductivity', 'rock_specific_heat', 'rock_density', 'reservoir_pressure_change_type', 'reservoir_pressure_change', 'reservoir_width', 'reservoir_height', 'reservoir_permeability', 'inj_prod_well_distance', 'subsurface_water_loss', 'fracture_aperature', 'fracture_width', 'num_fractures', 'fracture_angle', 'hr_pl_nlev'): ('num_wells_getem', 'geotherm.plant_efficiency_used', 'gross_output', 'pump_depth', 'pump_work', 'pump_size_hp', 'geotherm.delta_pressure_reservoir', 'geotherm.avg_reservoir_temp', 'geotherm.bottom_hole_pressure'), ('well_flow_rate', 'num_wells_getem'): ('geotherm.total_flow_kg_per_s'), ('geotherm.egs_design_temp_autoselect', 'resource_temp', 'geotherm.egs_design_temp_input'): ('design_temp'), (): ('ui_calculations_only'), ('gross_output', 'pump_work'): ('geotherm.net_output'), ('geotherm.total_flow_kg_per_s'): ('geotherm.total_flow_gpm') }, 'Geothermal Resource': { ('geotherm.bottom_hole_pressure'): ('geotherm.bottom_hole_pressureBar'), ('geotherm.avg_reservoir_temp'): ('geotherm.avg_reservoir_tempF'), ('geotherm.delta_pressure_reservoir'): ('geotherm.delta_pressure_reservoirBar') }, 'LF DSG Solar Field': { ('x_b_des'): ('SF_COPY_x_b_des'), ('P_turb_des'): ('SF_COPY_P_turb_des'), ('T_cold_ref'): ('SF_COPY_T_cold_ref_des'), ('csp.lf.sf.field_area', 'csp.lf.sf.area_multiplier'): ('csp.lf.sf.total_land_area'), ('I_bn_des'): ('SF_COPY_I_bn_des'), ('csp.lf.sf.dp.actual_aper'): ('csp.lf.sf.field_area'), ('csp.lf.geom1.rec_thermal_derate'): ('csp.lf.sf.dp.loop_therm_eff'), ('csp.lf.sf.dp.actual_aper', 'csp.lf.sf.dp.sm1_aperture'): ('solarm'), ('specified_solar_multiple', 'csp.lf.sf.dp.sm1_aperture', 'csp.lf.sf.dp.loop_aperture'): ('nLoops'), ('csp.lf.sf.dp.loop_aperture', 'nLoops'): ('csp.lf.sf.dp.actual_aper'), ('csp.lf.sf.dp.sm1_aperture', 'csp.lf.sf.dp.loop_aperture'): ('csp.lf.sf.dp.sm1_numloops'), ('csp.lf.sf.dp.actual_aper', 'I_bn_des', 'csp.lf.sf.dp.total_loop_conv_eff'): ('field_thermal_output'), ('specified_solar_multiple'): ('SF_COPY_specified_solar_multiple'), ('q_pb_des', 'I_bn_des', 'csp.lf.sf.dp.total_loop_conv_eff'): ('csp.lf.sf.dp.sm1_aperture'), ('fP_hdr_c', 'fP_sf_boil', 'fP_hdr_h', 'P_turb_des'): ('csp.lf.sf.total_pres_drop'), ('csp.lf.sf.dp.loop_opt_eff', 'csp.lf.sf.dp.loop_therm_eff'): ('csp.lf.sf.dp.total_loop_conv_eff'), ('specified_q_dot_rec_des'): ('SF_COPY_specified_q_dot_rec_des'), ('csp.lf.geom1.rec_optical_derate', 'csp.lf.geom1.coll_opt_loss_norm_inc'): ('csp.lf.sf.dp.loop_opt_eff'), ('nModBoil', 'csp.lf.geom1.refl_aper_area'): ('csp.lf.sf.dp.loop_aperture') }, 'LF DSG System Design': { (): ('T_hot '), ('specified_q_dot_rec_des'): ('system_capacity'), ('specified_solar_multiple', 'q_pb_des'): ('specified_q_dot_rec_des') }, 'Physical Trough Parasitics': { ('csp.dtr.par.bop_val', 'csp.dtr.par.bop_pf', 'csp.dtr.par.bop_c0', 'csp.dtr.par.bop_c1', 'csp.dtr.par.bop_c2'): ('bop_array'), ('pb_fixed_par', 'P_ref'): ('csp.dtr.par.calc.frac_gross'), ('csp.dtr.par.bop_val', 'csp.dtr.par.bop_pf', 'csp.dtr.par.bop_c0', 'csp.dtr.par.bop_c1', 'csp.dtr.par.bop_c2', 'P_ref'): ('csp.dtr.par.calc.bop'), ('csp.dtr.par.aux_val', 'csp.dtr.par.aux_pf', 'csp.dtr.par.aux_c0', 'csp.dtr.par.aux_c1', 'csp.dtr.par.aux_c2', 'P_ref'): ('csp.dtr.par.calc.aux'), ('nSCA', 'nLoops', 'SCA_drives_elec'): ('csp.dtr.par.calc.tracking'), ('csp.dtr.par.aux_val', 'csp.dtr.par.aux_pf', 'csp.dtr.par.aux_c0', 'csp.dtr.par.aux_c1', 'csp.dtr.par.aux_c2'): ('aux_array') }, 'Dish Reference Inputs': { ('csp.ds.refc.coolfluid'): ('test_cooling_fluid') }, 'Generic CSP System Costs': { (): ('system_use_recapitalization'), (): ('system_use_lifetime_output'), ('csp.gss.cost.solar_field.area', 'csp.gss.cost.solar_field.cost_per_m2'): ('csp.gss.cost.solar_field'), ('csp.gss.sf.field_area'): ('csp.gss.cost.site_improvements.area'), ('csp.gss.cost.storage.mwht', 'csp.gss.cost.storage.cost_per_kwht'): ('csp.gss.cost.storage'), ('csp.gss.tes.max_capacity'): ('csp.gss.cost.storage.mwht'), ('total_installed_cost', 'csp.gss.pwrb.nameplate'): ('csp.gss.cost.installed_per_capacity'), ('csp.gss.sf.field_area'): ('csp.gss.cost.solar_field.area'), ('csp.gss.cost.bop_mwe', 'csp.gss.cost.bop_per_kwe'): ('csp.gss.cost.bop'), ('csp.gss.cost.sales_tax.value', 'total_direct_cost', 'csp.gss.cost.sales_tax.percent'): ('csp.gss.cost.sales_tax.total'), ('csp.gss.cost.fossil_backup.mwe', 'csp.gss.cost.fossil_backup.cost_per_kwe'): ('csp.gss.cost.fossil_backup'), ('csp.gss.cost.contingency', 'csp.gss.cost.solar_field', 'csp.gss.cost.storage', 'csp.gss.cost.power_plant', 'csp.gss.cost.site_improvements', 'csp.gss.cost.fossil_backup', 'csp.gss.cost.bop'): ('total_direct_cost'), ('csp.gss.cost.site_improvements.area', 'csp.gss.cost.site_improvements.cost_per_m2'): ('csp.gss.cost.site_improvements'), ('csp.gss.cost.contingency_percent', 'csp.gss.cost.solar_field', 'csp.gss.cost.storage', 'csp.gss.cost.power_plant', 'csp.gss.cost.site_improvements', 'csp.gss.cost.fossil_backup', 'csp.gss.cost.bop'): ('csp.gss.cost.contingency'), ('csp.gss.cost.epc.per_acre', 'csp.gss.cost.total_land_area', 'csp.gss.cost.epc.percent', 'total_direct_cost', 'csp.gss.cost.nameplate', 'csp.gss.cost.epc.per_watt', 'csp.gss.cost.epc.fixed'): ('csp.gss.cost.epc.total'), ('w_des'): ('csp.gss.cost.fossil_backup.mwe'), ('w_des'): ('csp.gss.cost.power_plant.mwe'), ('csp.gss.solf.total_land_area'): ('csp.gss.cost.total_land_area'), ('w_des'): ('csp.gss.cost.bop_mwe'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('csp.gss.cost.power_plant.mwe', 'csp.gss.cost.power_plant.cost_per_kwe'): ('csp.gss.cost.power_plant'), ('sales_tax_rate'): ('csp.gss.cost.sales_tax.value'), ('csp.gss.cost.plm.per_acre', 'csp.gss.cost.total_land_area', 'csp.gss.cost.plm.percent', 'total_direct_cost', 'csp.gss.cost.nameplate', 'csp.gss.cost.plm.per_watt', 'csp.gss.cost.plm.fixed'): ('csp.gss.cost.plm.total'), ('csp.gss.cost.epc.total', 'csp.gss.cost.plm.total', 'csp.gss.cost.sales_tax.total'): ('total_indirect_cost'), ('csp.gss.pwrb.nameplate'): ('csp.gss.cost.nameplate') }, 'Linear Fresnel Superheater Geometry': { ('csp.lf.geom2.var1.broken_glass', 'csp.lf.geom2.var2.broken_glass', 'csp.lf.geom2.var3.broken_glass', 'csp.lf.geom2.var4.broken_glass'): ('csp.lf.geom2.glazing_intact'), ('csp.lf.geom2.var1.gas_type', 'csp.lf.geom2.var2.gas_type', 'csp.lf.geom2.var3.gas_type', 'csp.lf.geom2.var4.gas_type'): ('csp.lf.geom2.annulus_gas'), ('csp.lf.geom2.heat_loss_at_design', 'I_bn_des', 'csp.lf.geom2.refl_aper_area', 'csp.lf.geom2.coll_length'): ('csp.lf.geom2.rec_thermal_derate'), ('csp.lf.geom2.hl_mode', 'csp.lf.geom2.var1.field_fraction', 'csp.lf.geom2.var1.bellows_shadowing', 'csp.lf.geom2.var1.hce_dirt', 'csp.lf.geom2.var2.field_fraction', 'csp.lf.geom2.var2.bellows_shadowing', 'csp.lf.geom2.var2.hce_dirt', 'csp.lf.geom2.var3.field_fraction', 'csp.lf.geom2.var3.bellows_shadowing', 'csp.lf.geom2.var3.hce_dirt', 'csp.lf.geom2.var4.field_fraction', 'csp.lf.geom2.var4.bellows_shadowing', 'csp.lf.geom2.var4.hce_dirt'): ('csp.lf.geom2.rec_optical_derate'), ('T_cold_ref', 'T_hot', 'T_amb_des_sf'): ('csp.lf.geom2.avg_field_temp_dt_design'), ('csp.lf.geom2.track_error', 'csp.lf.geom2.geom_error', 'csp.lf.geom2.mirror_refl', 'csp.lf.geom2.soiling', 'csp.lf.geom2.general_error'): ('csp.lf.geom2.coll_opt_loss_norm_inc'), ('csp.lf.geom2.hl_mode', 'csp.lf.geom2.hlpolyt0', 'csp.lf.geom2.hlpolyt1', 'csp.lf.geom2.avg_field_temp_dt_design', 'csp.lf.geom2.hlpolyt2', 'csp.lf.geom2.hlpolyt3', 'csp.lf.geom2.hlpolyt4', 'csp.lf.geom2.var1.field_fraction', 'csp.lf.geom2.var1.rated_heat_loss', 'csp.lf.geom2.var2.field_fraction', 'csp.lf.geom2.var2.rated_heat_loss', 'csp.lf.geom2.var3.field_fraction', 'csp.lf.geom2.var3.rated_heat_loss', 'csp.lf.geom2.var4.field_fraction', 'csp.lf.geom2.var4.rated_heat_loss'): ('csp.lf.geom2.heat_loss_at_design') }, 'Empirical Trough Capital Costs': { (): ('system_use_recapitalization'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('sales_tax_rate', 'total_direct_cost', 'csp.tr.cost.sales_tax.percent'): ('csp.tr.cost.sales_tax.total'), ('Solar_Field_Area'): ('csp.tr.cost.htf_system.area'), ('calc_max_energy', 'csp.tr.cost.storage.cost_per_kwht'): ('csp.tr.cost.storage'), ('csp.tr.cost.epc.total', 'csp.tr.cost.plm.total', 'csp.tr.cost.sales_tax.total'): ('total_indirect_cost'), ('Solar_Field_Area', 'csp.tr.cost.solar_field.cost_per_m2'): ('csp.tr.cost.solar_field'), ('csp.tr.cost.plm.per_acre', 'csp.tr.cost.total_land_area', 'csp.tr.cost.plm.percent', 'total_direct_cost', 'system_capacity', 'csp.tr.cost.plm.per_watt', 'csp.tr.cost.plm.fixed'): ('csp.tr.cost.plm.total'), ('ui_net_capacity'): ('csp.tr.cost.nameplate'), ('ui_total_land_area'): ('csp.tr.cost.total_land_area'), ('sales_tax_rate'): ('csp.tr.cost.sales_tax.value'), ('csp.tr.cost.contingency_percent', 'csp.tr.cost.site_improvements', 'csp.tr.cost.solar_field', 'csp.tr.cost.htf_system', 'csp.tr.cost.storage', 'csp.tr.cost.fossil_backup', 'csp.tr.cost.power_plant', 'csp.tr.cost.bop'): ('csp.tr.cost.contingency'), ('TurbOutG', 'csp.tr.cost.bop_per_kwe'): ('csp.tr.cost.bop'), ('calc_max_energy'): ('csp.tr.cost.storage.mwht'), ('TurbOutG'): ('csp.tr.cost.bop.mwe'), ('TurbOutG', 'csp.tr.cost.fossil_backup.cost_per_kwe'): ('csp.tr.cost.fossil_backup'), ('csp.tr.cost.epc.per_acre', 'csp.tr.cost.total_land_area', 'csp.tr.cost.epc.percent', 'total_direct_cost', 'system_capacity', 'csp.tr.cost.epc.per_watt', 'csp.tr.cost.epc.fixed'): ('csp.tr.cost.epc.total'), ('TurbOutG', 'csp.tr.cost.power_plant.cost_per_kwe'): ('csp.tr.cost.power_plant'), ('TurbOutG'): ('csp.tr.cost.power_plant.mwe'), ('Solar_Field_Area', 'csp.tr.cost.htf_system.cost_per_m2'): ('csp.tr.cost.htf_system'), ('TurbOutG'): ('csp.tr.cost.fossil_backup.mwe'), ('Solar_Field_Area', 'csp.tr.cost.site_improvements.cost_per_m2'): ('csp.tr.cost.site_improvements'), (): ('system_use_lifetime_output'), ('Solar_Field_Area'): ('csp.tr.cost.site_improvements.area'), ('Solar_Field_Area'): ('csp.tr.cost.solar_field.area'), ('total_installed_cost', 'ui_net_capacity'): ('csp.tr.cost.installed_per_capacity'), ('csp.tr.cost.contingency', 'csp.tr.cost.site_improvements', 'csp.tr.cost.solar_field', 'csp.tr.cost.htf_system', 'csp.tr.cost.storage', 'csp.tr.cost.fossil_backup', 'csp.tr.cost.power_plant', 'csp.tr.cost.bop'): ('total_direct_cost') }, 'Empirical Trough HCE': { ('ui_hce_heat_losses_1', 'HCEFrac_1', 'ui_hce_heat_losses_2', 'HCEFrac_2', 'ui_hce_heat_losses_3', 'HCEFrac_3', 'ui_hce_heat_losses_4', 'HCEFrac_4'): ('ui_hce_thermloss_weighted_m'), ('PerfFac_2', 'HCEA0_2', 'HCEA5_2', 'ui_hce_hl_term_1', 'HCEA1_2', 'HCEA6_2', 'ui_hce_hl_term_2', 'HCEA2_2', 'HCEA4_2', 'ui_reference_direct_normal_irradiance', 'ui_hce_hl_term_3', 'HCEA3_2', 'ui_hce_hl_term_4'): ('ui_hce_heat_losses_2'), ('PerfFac_3', 'HCEA0_3', 'HCEA5_3', 'ui_hce_hl_term_1', 'HCEA1_3', 'HCEA6_3', 'ui_hce_hl_term_2', 'HCEA2_3', 'HCEA4_3', 'ui_reference_direct_normal_irradiance', 'ui_hce_hl_term_3', 'HCEA3_3', 'ui_hce_hl_term_4'): ('ui_hce_heat_losses_3'), ('ui_reference_wind_speed'): ('ui_hce_hl_term_1'), ('ui_hce_opt_eff_1', 'HCEFrac_1', 'ui_hce_opt_eff_2', 'HCEFrac_2', 'ui_hce_opt_eff_3', 'HCEFrac_3', 'ui_hce_opt_eff_4', 'HCEFrac_4'): ('ui_hce_opt_eff_weighted'), ('calc_hce_col_factor', 'ui_hce_broken_glass_1', 'ui_hce_HCEdust', 'HCEBelShad_1', 'HCEEnvTrans_1', 'HCEabs_1', 'HCEmisc_1'): ('ui_hce_opt_eff_1'), ('calc_hce_col_factor', 'ui_hce_broken_glass_4', 'ui_hce_HCEdust', 'HCEBelShad_4', 'HCEEnvTrans_4', 'HCEabs_4', 'HCEmisc_4'): ('ui_hce_opt_eff_4'), ('calc_hce_col_factor', 'ui_hce_broken_glass_3', 'ui_hce_HCEdust', 'HCEBelShad_3', 'HCEEnvTrans_3', 'HCEabs_3', 'HCEmisc_3'): ('ui_hce_opt_eff_3'), ('calc_hce_col_factor', 'ui_hce_broken_glass_2', 'ui_hce_HCEdust', 'HCEBelShad_2', 'HCEEnvTrans_2', 'HCEabs_2', 'HCEmisc_2'): ('ui_hce_opt_eff_2'), ('HCEA5_1', 'HCEA5_2', 'HCEA5_3', 'HCEA5_4'): ('HCE_A5'), ('SfOutTempD', 'SfInTempD'): ('ui_hce_hl_term_4'), ('HCEA4_1', 'HCEA4_2', 'HCEA4_3', 'HCEA4_4'): ('HCE_A4'), ('SfOutTempD', 'SfInTempD', 'ui_reference_ambient_temperature'): ('ui_hce_hl_term_2'), ('HCEA3_1', 'HCEA3_2', 'HCEA3_3', 'HCEA3_4'): ('HCE_A3'), ('ui_hce_thermloss_weighted_m', 'SCA_aper'): ('ui_hce_thermloss_weighted_m2'), ('HCEmisc_1', 'HCEmisc_2', 'HCEmisc_3', 'HCEmisc_4'): ('HCEmisc'), ('HCEA2_1', 'HCEA2_2', 'HCEA2_3', 'HCEA2_4'): ('HCE_A2'), ('SfOutTempD', 'SfInTempD'): ('ui_hce_hl_term_3'), ('PerfFac_4', 'HCEA0_4', 'HCEA5_4', 'ui_hce_hl_term_1', 'HCEA1_4', 'HCEA6_4', 'ui_hce_hl_term_2', 'HCEA2_4', 'HCEA4_4', 'ui_reference_direct_normal_irradiance', 'ui_hce_hl_term_3', 'HCEA3_4', 'ui_hce_hl_term_4'): ('ui_hce_heat_losses_4'), ('HCEA6_1', 'HCEA6_2', 'HCEA6_3', 'HCEA6_4'): ('HCE_A6'), ('PerfFac_1', 'PerfFac_2', 'PerfFac_3', 'PerfFac_4'): ('PerfFac'), ('HCEA1_1', 'HCEA1_2', 'HCEA1_3', 'HCEA1_4'): ('HCE_A1'), ('calc_col_factor'): ('calc_hce_col_factor'), ('HCEdust'): ('ui_hce_HCEdust'), ('HCEFrac_1', 'HCEFrac_2', 'HCEFrac_3', 'HCEFrac_4'): ('HCEFrac'), ('HCEA0_1', 'HCEA0_2', 'HCEA0_3', 'HCEA0_4'): ('HCE_A0'), ('HCEabs_1', 'HCEabs_2', 'HCEabs_3', 'HCEabs_4'): ('HCEabs'), ('HCEBelShad_1', 'HCEBelShad_2', 'HCEBelShad_3', 'HCEBelShad_4'): ('HCEBelShad'), ('PerfFac_1', 'HCEA0_1', 'HCEA5_1', 'ui_hce_hl_term_1', 'HCEA1_1', 'HCEA6_1', 'ui_hce_hl_term_2', 'HCEA2_1', 'HCEA4_1', 'ui_reference_direct_normal_irradiance', 'ui_hce_hl_term_3', 'HCEA3_1', 'ui_hce_hl_term_4'): ('ui_hce_heat_losses_1'), ('HCEEnvTrans_1', 'HCEEnvTrans_2', 'HCEEnvTrans_3', 'HCEEnvTrans_4'): ('HCEEnvTrans') }, 'Empirical Trough Power Block': { ('ui_net_capacity'): ('system_capacity'), ('ui_q_design', 'E2TPLF0', 'E2TPLF1', 'MinGrOut', 'E2TPLF2', 'E2TPLF3', 'E2TPLF4'): ('ui_min_therm_input'), ('TurbOutG', 'ui_gross_net_conversion_factor'): ('ui_net_capacity'), ('TurbOutG', 'TurbEffG'): ('ui_q_design'), ('ui_q_design', 'E2TPLF0', 'E2TPLF1', 'MaxGrOut', 'E2TPLF2', 'E2TPLF3', 'E2TPLF4'): ('ui_max_therm_input'), ('MinGrOut'): ('PTTMIN'), ('MaxGrOut'): ('PTTMAX') }, 'Physical Trough Collector Type 2': { ('csp_dtr_sca_ave_focal_len_2', 'csp_dtr_sca_calc_theta_2', 'csp_dtr_sca_piping_dist_2'): ('csp_dtr_sca_calc_end_gain_2'), ('lat'): ('csp_dtr_sca_calc_latitude_2'), ('csp_dtr_sca_ave_focal_len_2', 'csp_dtr_sca_calc_theta_2', 'nSCA', 'csp_dtr_sca_calc_end_gain_2', 'csp_dtr_sca_length_2', 'csp_dtr_sca_ncol_per_sca_2'): ('csp_dtr_sca_calc_end_loss_2'), ('csp_dtr_sca_length_2', 'csp_dtr_sca_ncol_per_sca_2'): ('csp_dtr_sca_ap_length_2'), ('csp_dtr_sca_calc_costh_2'): ('csp_dtr_sca_calc_theta_2'), ('lat'): ('csp_dtr_sca_calc_zenith_2'), ('IAMs_2', 'csp_dtr_sca_calc_theta_2', 'csp_dtr_sca_calc_costh_2'): ('csp_dtr_sca_calc_iam_2'), ('csp_dtr_sca_calc_zenith_2', 'tilt', 'azimuth'): ('csp_dtr_sca_calc_costh_2'), ('csp_dtr_sca_tracking_error_2', 'csp_dtr_sca_geometry_effects_2', 'csp_dtr_sca_clean_reflectivity_2', 'csp_dtr_sca_mirror_dirt_2', 'csp_dtr_sca_general_error_2'): ('csp_dtr_sca_calc_sca_eff_2') }, 'Empirical Trough Solar Field': { ('ui_field_htf_type'): ('HTFFluid'), ('ui_field_layout_option', 'ui_solar_multiple', 'calc_aperture_area_at_sm_1', 'ui_solar_field_area'): ('Solar_Field_Area'), ('ui_field_layout_option', 'ui_solar_multiple', 'ui_solar_field_area', 'calc_aperture_area_at_sm_1'): ('Solar_Field_Mult'), ('ui_design_exact_num_scas_sm_1', 'ui_sca_aperture_area'): ('calc_aperture_area_at_sm_1'), ('ui_hce_opt_eff_weighted'): ('ui_hce_weighted_optical_efficiency'), ('Solar_Field_Mult', 'ui_design_exact_area_sm_1', 'Row_Distance', 'SCA_aper'): ('ui_fixed_land_area'), ('ui_field_htf_type'): ('ui_field_htf_min_operating_temp'), ('ui_design_exact_area_sm_1', 'ui_sca_aperture_area'): ('ui_design_exact_num_scas_sm_1'), ('ui_fixed_land_area', 'ui_land_multiplier'): ('ui_total_land_area'), ('ui_field_htf_type'): ('ui_field_htf_max_operating_temp'), ('SfInTempD', 'SfOutTempD', 'ui_reference_ambient_temperature'): ('calc_field_htf_average_temp'), ('ui_sca_aperture_area'): ('ui_aperture_area_per_SCA'), ('SfPipeHl3', 'calc_field_htf_average_temp', 'SfPipeHl2', 'SfPipeHl1', 'SfPipeHl300'): ('ui_piping_heat_loss'), ('ui_pb_q_design', 'ui_reference_direct_normal_irradiance', 'ui_hce_weighted_optical_efficiency', 'ui_hce_weighted_thermal_losses', 'ui_piping_heat_loss'): ('ui_design_exact_area_sm_1'), ('ui_q_design'): ('ui_pb_q_design'), ('ui_hce_thermloss_weighted_m2'): ('ui_hce_weighted_thermal_losses'), (): ('i_SfTi') }, 'Financial LCOE Calculator': { ('ui_fcr_input_option', 'ui_fixed_charge_rate', 'c_inflation', 'c_equity_return', 'c_debt_percent', 'c_nominal_interest_rate', 'c_tax_rate', 'c_lifetime', 'c_depreciation_schedule', 'c_construction_cost', 'c_construction_interest'): ('fixed_charge_rate', 'ui_wacc', 'ui_crf', 'ui_pfin', 'ui_cfin', 'ui_ireal'), ('ui_variable_operating_cost'): ('variable_operating_cost'), ('ui_cost_input_option', 'ui_capital_cost_fixed', 'system_capacity', 'ui_capital_cost_capacity'): ('capital_cost'), ('ui_cost_input_option', 'ui_operating_cost_fixed', 'system_capacity', 'ui_operating_cost_capacity'): ('fixed_operating_cost'), ('system_capacity'): ('ui_system_capacity') }, 'Physical Trough Thermal Storage': { ('vol_tank', 'h_tank', 'tank_pairs'): ('csp.dtr.tes.tank_diameter'), ('is_hx', 'dt_hot', 'dt_cold', 'T_loop_out', 'T_loop_in_des'): ('csp.dtr.tes.hx_derate'), ('vol_tank', 'h_tank_min', 'h_tank'): ('csp.dtr.tes.min_fluid_volume'), ('P_ref', 'eta_ref', 'tshours'): ('csp.dtr.tes.thermal_capacity'), ('h_tank_min', 'h_tank', 'vol_tank'): ('V_tank_hot_ini'), ('T_loop_in_des', 'T_loop_out'): ('csp.dtr.tes.htf_calc_temp'), ('combo_tes_htf_type'): ('csp.dtr.tes.htf_max_opt_temp'), ('h_tank', 'csp.dtr.tes.tank_diameter', 'tank_pairs', 'csp.dtr.tes.htf_calc_temp', 'u_tank'): ('csp.dtr.tes.estimated_heat_loss'), ('combo_tes_htf_type'): ('csp.dtr.tes.htf_min_opt_temp'), ('combo_tes_htf_type', 'store_fluid', 'csp.dtr.tes.htf_calc_temp', 'store_fl_props'): ('csp.dtr.tes.fluid_dens'), ('dt_hot'): ('dt_cold'), ('csp.dtr.tes.thermal_capacity', 'csp.dtr.tes.fluid_dens', 'csp.dtr.tes.fluid_sph', 'csp.dtr.tes.hx_derate', 'T_loop_out', 'dt_hot', 'T_loop_in_des', 'dt_cold'): ('vol_tank'), ('combo_tes_htf_type', 'store_fluid', 'csp.dtr.tes.htf_calc_temp', 'store_fl_props'): ('csp.dtr.tes.fluid_sph'), ('combo_tes_htf_type'): ('store_fluid') }, 'Physical Trough Power Block Common': { ('q_pb_design'): ('PB_COPY_q_pb_design'), ('csp.dtr.pwrb.design_inlet_temp'): ('PB_COPY_T_htf_hot_des'), ('csp.dtr.pwrb.nameplate'): ('system_capacity'), ('T_loop_in_des'): ('csp.dtr.pwrb.design_outlet_temp'), ('PB_COPY_q_pb_design', 'PB_COPY_htf_cp_avg', 'PB_COPY_T_htf_hot_des', 'PB_COPY_T_htf_cold_des'): ('PB_m_dot_htf_cycle_des'), ('T_loop_out'): ('csp.dtr.pwrb.design_inlet_temp'), ('csp.dtr.pwrb.design_outlet_temp'): ('PB_COPY_T_htf_cold_des'), ('P_ref', 'csp.dtr.pwrb.gross_net_conversion_factor'): ('csp.dtr.pwrb.nameplate'), ('field_htf_cp_avg'): ('PB_COPY_htf_cp_avg'), ('P_ref', 'eta_ref'): ('W_pb_design', 'q_pb_design', 'q_max_aux'), ('comb_fossil_mode'): ('fossil_mode') }, 'Generic CSP Power Block': { ('csp.gss.pwrb.nameplate'): ('system_capacity'), ('dni_par_f3', 'dni_par_f2', 'dni_par_f1', 'dni_par_f0'): ('Wpar_prodD_coefs'), ('csp.gss.pwrb.temp_eff_f4', 'csp.gss.pwrb.temp_eff_f3', 'csp.gss.pwrb.temp_eff_f2', 'csp.gss.pwrb.temp_eff_f1', 'csp.gss.pwrb.temp_eff_f0'): ('etaT_coefs'), ('csp.gss.pwrb.pl_eff_f4', 'csp.gss.pwrb.pl_eff_f3', 'csp.gss.pwrb.pl_eff_f2', 'csp.gss.pwrb.pl_eff_f1', 'csp.gss.pwrb.pl_eff_f0'): ('etaQ_coefs'), ('csp.gss.pwrb.temp_corr_mode'): ('PC_T_corr'), ('csp.gss.pwrb.gross_net_conversion_factor', 'w_des'): ('csp.gss.pwrb.nameplate'), ('csp.gss.pwrb.temp_par_f3', 'csp.gss.pwrb.temp_par_f2', 'csp.gss.pwrb.temp_par_f1', 'csp.gss.pwrb.temp_par_f0'): ('Wpar_prodT_coefs'), ('csp.gss.pwrb.pl_par_f3', 'csp.gss.pwrb.pl_par_f2', 'csp.gss.pwrb.pl_par_f1', 'csp.gss.pwrb.pl_par_f0'): ('Wpar_prodQ_coefs'), ('csp.gss.pwrb.pl_par_design', 'csp.gss.pwrb.temp_par_design', 'dni_par_design'): ('f_par_tot_des'), ('w_des', 'f_Wpar_fixed', 'f_Wpar_prod', 'csp.gss.pwrb.pl_par_design', 'csp.gss.pwrb.temp_par_design', 'dni_par_design'): ('csp.gss.pwrb.design_parasitic_load'), ('dni_par_f0', 'dni_par_f1', 'dni_par_f2', 'dni_par_f3'): ('dni_par_design'), ('w_des', 'f_Wpar_prod', 'f_par_tot_des'): ('W_dot_part_load_des'), ('w_des', 'f_Wpar_fixed'): ('W_dot_par_fixed'), ('csp.gss.pwrb.pl_par_f0', 'csp.gss.pwrb.pl_par_f1', 'csp.gss.pwrb.pl_par_f2', 'csp.gss.pwrb.pl_par_f3'): ('csp.gss.pwrb.pl_par_design'), ('csp.gss.pwrb.temp_par_f0', 'csp.gss.pwrb.temp_par_f1', 'csp.gss.pwrb.temp_par_f2', 'csp.gss.pwrb.temp_par_f3'): ('csp.gss.pwrb.temp_par_design') }, 'Physical Trough Receiver Type 3': { ('csp_dtr_hce_var1_field_fraction_3', 'csp_dtr_hce_var1_bellows_shadowing_3', 'csp_dtr_hce_var1_hce_dirt_3', 'csp_dtr_hce_var1_abs_abs_3', 'csp_dtr_hce_var1_env_trans_3', 'csp_dtr_hce_var2_field_fraction_3', 'csp_dtr_hce_var2_bellows_shadowing_3', 'csp_dtr_hce_var2_hce_dirt_3', 'csp_dtr_hce_var2_abs_abs_3', 'csp_dtr_hce_var2_env_trans_3', 'csp_dtr_hce_var3_field_fraction_3', 'csp_dtr_hce_var3_bellows_shadowing_3', 'csp_dtr_hce_var3_hce_dirt_3', 'csp_dtr_hce_var3_abs_abs_3', 'csp_dtr_hce_var3_env_trans_3', 'csp_dtr_hce_var4_field_fraction_3', 'csp_dtr_hce_var4_bellows_shadowing_3', 'csp_dtr_hce_var4_hce_dirt_3', 'csp_dtr_hce_var4_abs_abs_3', 'csp_dtr_hce_var4_env_trans_3'): ('csp_dtr_hce_optical_eff_3'), ('csp_dtr_hce_var1_field_fraction_3', 'csp_dtr_hce_var1_rated_heat_loss_3', 'csp_dtr_hce_var2_field_fraction_3', 'csp_dtr_hce_var2_rated_heat_loss_3', 'csp_dtr_hce_var3_field_fraction_3', 'csp_dtr_hce_var3_rated_heat_loss_3', 'csp_dtr_hce_var4_field_fraction_3', 'csp_dtr_hce_var4_rated_heat_loss_3'): ('csp_dtr_hce_design_heat_loss_3') }, 'Empirical Trough Parasitics': { ('HtrParPF', 'ui_par_hb_const', 'ui_par_turb_out_gr'): ('HtrPar'), ('BOPParPF', 'ui_par_bop_const', 'ui_par_turb_out_gr'): ('BOPPar'), ('ui_par_fixedblock_const', 'ui_par_turb_out_gr'): ('PbFixPar'), ('ChtfParPF', 'ui_par_htfpump_const', 'ui_par_sf_area'): ('ChtfPar'), ('CtParPF', 'ui_par_ct0_const', 'ui_par_turb_out_gr'): ('CtPar'), ('Solar_Field_Area'): ('ui_par_sf_area'), ('HhtfParPF', 'ui_par_tes_const', 'ui_par_turb_out_gr'): ('HhtfPar'), ('SfParPF', 'ui_par_sf_const', 'ui_par_sf_area'): ('SfPar'), ('SfPar', 'ChtfPar', 'HhtfPar', 'AntiFrPar', 'PbFixPar', 'BOPPar', 'HtrPar', 'CtPar'): ('ui_par_dp_total'), ('ui_par_antifreeze_const', 'ChtfPar'): ('AntiFrPar'), ('TurbOutG'): ('ui_par_turb_out_gr') }, 'Phys Trough Direct Storage': { ('T_loop_in_des'): ('TES_COPY_T_htf_cold_des'), ('T_loop_out'): ('TES_COPY_T_htf_hot_des'), ('tshours'): ('TES_COPY_tshours'), ('q_pb_design'): ('TES_COPY_q_pb_design'), ('q_pb_design', 'tshours', 'T_loop_out', 'T_loop_in_des', 'Fluid', 'field_fl_props', 'h_tank_min', 'h_tank', 'tank_pairs', 'u_tank'): ('Q_tes', 'tes_avail_vol', 'vol_tank', 'csp.pt.tes.tank_diameter', 'q_dot_tes_est', 'csp.pt.tes.htf_density') }, 'Physical Trough Receiver Type 2': { ('csp_dtr_hce_var1_field_fraction_2', 'csp_dtr_hce_var1_rated_heat_loss_2', 'csp_dtr_hce_var2_field_fraction_2', 'csp_dtr_hce_var2_rated_heat_loss_2', 'csp_dtr_hce_var3_field_fraction_2', 'csp_dtr_hce_var3_rated_heat_loss_2', 'csp_dtr_hce_var4_field_fraction_2', 'csp_dtr_hce_var4_rated_heat_loss_2'): ('csp_dtr_hce_design_heat_loss_2'), ('csp_dtr_hce_var1_field_fraction_2', 'csp_dtr_hce_var1_bellows_shadowing_2', 'csp_dtr_hce_var1_hce_dirt_2', 'csp_dtr_hce_var1_abs_abs_2', 'csp_dtr_hce_var1_env_trans_2', 'csp_dtr_hce_var2_field_fraction_2', 'csp_dtr_hce_var2_bellows_shadowing_2', 'csp_dtr_hce_var2_hce_dirt_2', 'csp_dtr_hce_var2_abs_abs_2', 'csp_dtr_hce_var2_env_trans_2', 'csp_dtr_hce_var3_field_fraction_2', 'csp_dtr_hce_var3_bellows_shadowing_2', 'csp_dtr_hce_var3_hce_dirt_2', 'csp_dtr_hce_var3_abs_abs_2', 'csp_dtr_hce_var3_env_trans_2', 'csp_dtr_hce_var4_field_fraction_2', 'csp_dtr_hce_var4_bellows_shadowing_2', 'csp_dtr_hce_var4_hce_dirt_2', 'csp_dtr_hce_var4_abs_abs_2', 'csp_dtr_hce_var4_env_trans_2'): ('csp_dtr_hce_optical_eff_2') }, 'Financial Construction Financing': { ('const_per_total1', 'const_per_total2', 'const_per_total3', 'const_per_total4', 'const_per_total5'): ('construction_financing_cost'), ('const_per_interest1', 'const_per_interest2', 'const_per_interest3', 'const_per_interest4', 'const_per_interest5'): ('const_per_interest_total'), ('const_per_percent1', 'const_per_percent2', 'const_per_percent3', 'const_per_percent4', 'const_per_percent5'): ('const_per_percent_total'), ('const_per_principal1', 'const_per_principal2', 'const_per_principal3', 'const_per_principal4', 'const_per_principal5'): ('const_per_principal_total'), ('total_installed_cost', 'const_per_interest_rate1', 'const_per_months1', 'const_per_percent1', 'const_per_upfront_rate1', 'const_per_interest_rate2', 'const_per_months2', 'const_per_percent2', 'const_per_upfront_rate2', 'const_per_interest_rate3', 'const_per_months3', 'const_per_percent3', 'const_per_upfront_rate3', 'const_per_interest_rate4', 'const_per_months4', 'const_per_percent4', 'const_per_upfront_rate4', 'const_per_interest_rate5', 'const_per_months5', 'const_per_percent5', 'const_per_upfront_rate5'): ('const_per_principal1', 'const_per_interest1', 'const_per_total1', 'const_per_principal2', 'const_per_interest2', 'const_per_total2', 'const_per_principal3', 'const_per_interest3', 'const_per_total3', 'const_per_principal4', 'const_per_interest4', 'const_per_total4', 'const_per_principal5', 'const_per_interest5', 'const_per_total5') }, 'Wind OBOS': { ('wind_farm_num_turbines', 'wind_turbine_kw_rating', 'wind_turbine_rotor_diameter', 'wind_turbine_hub_ht', 'windfarm.farm.turbine_spacing', 'windfarm.farm.row_spacing', 'turbine_cost_total', 'system_capacity', 'waterD', 'distShore', 'distPort', 'distPtoA', 'distAtoS', 'substructure', 'anchor', 'turbInstallMethod', 'towerInstallMethod', 'installStrategy', 'cableOptimizer', 'moorLines', 'buryDepth', 'substructCont', 'turbCont', 'elecCont', 'interConVolt', 'distInterCon', 'scrapVal', 'number_install_seasons', 'detailed_obos_general', 'detailed_obos_substructure', 'detailed_obos_electrical', 'detailed_obos_assembly', 'detailed_obos_port', 'detailed_obos_development'): ('obos_warning', 'total_obos_cost'), ('total_obos_cost', 'system_capacity'): ('total_obos_cost_per_kw') }, 'Dish Parasitics': { ('csp.ds.coolfluid'): ('cooling_fluid') }, 'Physical Trough Receiver Type 1': { ('csp_dtr_hce_var1_field_fraction_1', 'csp_dtr_hce_var1_bellows_shadowing_1', 'csp_dtr_hce_var1_hce_dirt_1', 'csp_dtr_hce_var1_abs_abs_1', 'csp_dtr_hce_var1_env_trans_1', 'csp_dtr_hce_var2_field_fraction_1', 'csp_dtr_hce_var2_bellows_shadowing_1', 'csp_dtr_hce_var2_hce_dirt_1', 'csp_dtr_hce_var2_abs_abs_1', 'csp_dtr_hce_var2_env_trans_1', 'csp_dtr_hce_var3_field_fraction_1', 'csp_dtr_hce_var3_bellows_shadowing_1', 'csp_dtr_hce_var3_hce_dirt_1', 'csp_dtr_hce_var3_abs_abs_1', 'csp_dtr_hce_var3_env_trans_1', 'csp_dtr_hce_var4_field_fraction_1', 'csp_dtr_hce_var4_bellows_shadowing_1', 'csp_dtr_hce_var4_hce_dirt_1', 'csp_dtr_hce_var4_abs_abs_1', 'csp_dtr_hce_var4_env_trans_1'): ('csp_dtr_hce_optical_eff_1'), ('csp_dtr_hce_var1_field_fraction_1', 'csp_dtr_hce_var1_rated_heat_loss_1', 'csp_dtr_hce_var2_field_fraction_1', 'csp_dtr_hce_var2_rated_heat_loss_1', 'csp_dtr_hce_var3_field_fraction_1', 'csp_dtr_hce_var3_rated_heat_loss_1', 'csp_dtr_hce_var4_field_fraction_1', 'csp_dtr_hce_var4_rated_heat_loss_1'): ('csp_dtr_hce_design_heat_loss_1') }, 'Physical Trough Collector Type 3': { ('csp_dtr_sca_length_3', 'csp_dtr_sca_ncol_per_sca_3'): ('csp_dtr_sca_ap_length_3'), ('IAMs_3', 'csp_dtr_sca_calc_theta_3', 'csp_dtr_sca_calc_costh_3'): ('csp_dtr_sca_calc_iam_3'), ('csp_dtr_sca_calc_zenith_3', 'tilt', 'azimuth'): ('csp_dtr_sca_calc_costh_3'), ('lat'): ('csp_dtr_sca_calc_latitude_3'), ('csp_dtr_sca_ave_focal_len_3', 'csp_dtr_sca_calc_theta_3', 'nSCA', 'csp_dtr_sca_calc_end_gain_3', 'csp_dtr_sca_length_3', 'csp_dtr_sca_ncol_per_sca_3'): ('csp_dtr_sca_calc_end_loss_3'), ('csp_dtr_sca_ave_focal_len_3', 'csp_dtr_sca_calc_theta_3', 'csp_dtr_sca_piping_dist_3'): ('csp_dtr_sca_calc_end_gain_3'), ('csp_dtr_sca_tracking_error_3', 'csp_dtr_sca_geometry_effects_3', 'csp_dtr_sca_clean_reflectivity_3', 'csp_dtr_sca_mirror_dirt_3', 'csp_dtr_sca_general_error_3'): ('csp_dtr_sca_calc_sca_eff_3'), ('csp_dtr_sca_calc_costh_3'): ('csp_dtr_sca_calc_theta_3'), ('lat'): ('csp_dtr_sca_calc_zenith_3') }, 'User Defined Power Cycle': { ('PB_COPY_T_htf_hot_des'): ('ud_COPY_T_HTF_des'), (): ('ud_m_dot_design'), ('ud_T_amb_des'): ('ud_COPY_T_amb_des'), ('P_ref', 'ud_f_W_dot_cool_des'): ('ud_W_dot_cool_calc') }, 'Physical Trough Collector Type 1': { ('IAMs_1', 'csp_dtr_sca_calc_theta_1', 'csp_dtr_sca_calc_costh_1'): ('csp_dtr_sca_calc_iam_1'), ('csp_dtr_sca_calc_costh_1'): ('csp_dtr_sca_calc_theta_1'), ('lat'): ('csp_dtr_sca_calc_zenith_1'), ('lat'): ('csp_dtr_sca_calc_latitude_1'), ('csp_dtr_sca_tracking_error_1', 'csp_dtr_sca_geometry_effects_1', 'csp_dtr_sca_clean_reflectivity_1', 'csp_dtr_sca_mirror_dirt_1', 'csp_dtr_sca_general_error_1'): ('csp_dtr_sca_calc_sca_eff_1'), ('csp_dtr_sca_ave_focal_len_1', 'csp_dtr_sca_calc_theta_1', 'nSCA', 'csp_dtr_sca_calc_end_gain_1', 'csp_dtr_sca_length_1', 'csp_dtr_sca_ncol_per_sca_1'): ('csp_dtr_sca_calc_end_loss_1'), ('csp_dtr_sca_calc_zenith_1', 'tilt', 'azimuth'): ('csp_dtr_sca_calc_costh_1'), ('csp_dtr_sca_ave_focal_len_1', 'csp_dtr_sca_calc_theta_1', 'csp_dtr_sca_piping_dist_1'): ('csp_dtr_sca_calc_end_gain_1'), ('csp_dtr_sca_length_1', 'csp_dtr_sca_ncol_per_sca_1'): ('csp_dtr_sca_ap_length_1') }, 'CEC Performance Model with Module Database': { ('cec_gamma_r', 'cec_p_mp_ref'): ('gamma_r_calc'), ('cec_beta_oc', 'cec_v_oc_ref'): ('beta_oc_calc'), ('cec_v_mp_ref', 'cec_i_mp_ref', 'cec_area'): ('cec_eff'), ('cec_alpha_sc', 'cec_i_sc_ref'): ('alpha_sc_calc'), ('cec_area', 'cec_module_width'): ('cec_module_length'), ('cec_i_mp_ref', 'cec_v_mp_ref'): ('cec_p_mp_ref') }, 'Physical Trough Solar Field': { ('trough_loop_control'): ('SCAInfoArray'), ('fixed_land_area', 'non_solar_field_land_area_multiplier'): ('total_land_area'), ('P_ref', 'eta_ref', 'I_bn_des', 'total_loop_conversion_efficiency'): ('total_required_aperture_for_SM1'), ('total_aperture', 'Row_Distance', 'max_collector_width'): ('fixed_land_area'), ('solar_mult', 'P_ref', 'eta_ref'): ('field_thermal_output'), ('trough_loop_control', 'csp_dtr_sca_calc_sca_eff_1', 'csp_dtr_sca_calc_sca_eff_2', 'csp_dtr_sca_calc_sca_eff_3', 'csp_dtr_sca_calc_sca_eff_4', 'csp_dtr_sca_length_1', 'csp_dtr_sca_length_2', 'csp_dtr_sca_length_3', 'csp_dtr_sca_length_4', 'csp_dtr_hce_optical_eff_1', 'csp_dtr_hce_optical_eff_2', 'csp_dtr_hce_optical_eff_3', 'csp_dtr_hce_optical_eff_4'): ('loop_optical_efficiency'), ('total_required_aperture_for_SM1', 'single_loop_aperature'): ('required_number_of_loops_for_SM1'), ('trough_loop_control'): ('SCADefocusArray'), ('single_loop_aperature', 'nLoops'): ('total_aperture'), ('radio_sm_or_area', 'specified_solar_multiple', 'total_aperture', 'total_required_aperture_for_SM1'): ('solar_mult'), ('combo_feather'): ('fthrctrl'), ('combo_htf_type'): ('Fluid'), ('m_dot_htfmin', 'fluid_dens_inlet_temp', 'min_inner_diameter'): ('min_field_flow_velocity'), ('combo_FieldConfig'): ('FieldConfig'), ('radio_sm_or_area', 'specified_solar_multiple', 'total_required_aperture_for_SM1', 'specified_total_aperture', 'single_loop_aperature'): ('nLoops'), ('trough_loop_control', 'csp_dtr_hce_diam_absorber_inner_1', 'csp_dtr_hce_diam_absorber_inner_2', 'csp_dtr_hce_diam_absorber_inner_3', 'csp_dtr_hce_diam_absorber_inner_4'): ('min_inner_diameter'), ('trough_loop_control', 'I_bn_des', 'csp_dtr_hce_design_heat_loss_1', 'csp_dtr_hce_design_heat_loss_2', 'csp_dtr_hce_design_heat_loss_3', 'csp_dtr_hce_design_heat_loss_4', 'csp_dtr_sca_length_1', 'csp_dtr_sca_length_2', 'csp_dtr_sca_length_3', 'csp_dtr_sca_length_4', 'csp_dtr_sca_aperture_1', 'csp_dtr_sca_aperture_2', 'csp_dtr_sca_aperture_3', 'csp_dtr_sca_aperture_4'): ('cspdtr_loop_hce_heat_loss'), ('m_dot_htfmax', 'fluid_dens_outlet_temp', 'min_inner_diameter'): ('max_field_flow_velocity'), ('trough_loop_control', 'csp_dtr_sca_aperture_1', 'csp_dtr_sca_aperture_2', 'csp_dtr_sca_aperture_3', 'csp_dtr_sca_aperture_4'): ('single_loop_aperature'), ('combo_htf_type', 'Fluid', 'T_loop_in_des', 'T_loop_out', 'field_fl_props'): ('field_htf_cp_avg'), ('loop_optical_efficiency', 'cspdtr_loop_hce_heat_loss'): ('total_loop_conversion_efficiency'), (): ('defocus') }, 'Molten Salt Tower Power Block Common': { ('PB_COPY_q_pb_design', 'PB_COPY_htf_cp_avg', 'PB_COPY_T_htf_hot_des', 'PB_COPY_T_htf_cold_des'): ('PB_m_dot_htf_cycle_des'), ('csp.pt.rec.htf_c_avg'): ('PB_COPY_htf_cp_avg'), ('T_htf_cold_des'): ('PB_COPY_T_htf_cold_des'), ('q_pb_design'): ('PB_COPY_q_pb_design'), ('T_htf_hot_des'): ('PB_COPY_T_htf_hot_des'), ('design_eff'): ('PB_COPY_design_eff'), ('nameplate'): ('PB_COPY_nameplate'), ('gross_net_conversion_factor'): ('PB_COPY_gross_net_conversion_factor'), ('P_ref'): ('PB_COPY_P_ref'), ('nameplate'): ('system_capacity') }, 'Wind Farm Costs': { ('turbine_cost_total', 'bos_cost_total', 'sales_tax_basis', 'sales_tax_rate'): ('sales_tax_total'), ('sales_tax_rate'): ('reference_sales_tax_percent'), (): ('system_use_lifetime_output'), (): ('system_use_recapitalization'), ('total_installed_cost', 'reference_capacity'): ('total_installed_cost_per_kw'), ('system_capacity'): ('reference_capacity'), ('turbine_cost_total', 'bos_cost_total', 'sales_tax_total'): ('total_installed_cost'), ('bos_cost_per_kw', 'reference_capacity', 'bos_cost_per_turbine', 'reference_number_turbines', 'bos_cost_fixed'): ('bos_cost_total'), ('turbine_cost_per_kw', 'reference_capacity', 'turbine_cost_per_turbine', 'reference_number_turbines', 'turbine_cost_fixed'): ('turbine_cost_total'), ('wind_resource_filename'): ('reference_resource_file'), ('wind_farm_num_turbines'): ('reference_number_turbines') }, 'Tower SolarPilot Solar Field': { (): ('opt_algorithm'), ('is_optimize', 'override_layout'): ('field_model_type'), ('Q_rec_des'): ('q_design'), ('helio_height', 'helio_width', 'dens_mirror'): ('csp.pt.sf.heliostat_area'), ('helio_width', 'helio_height', 'dens_mirror', 'n_hel'): ('A_sf_UI'), ('helio_optical_error_mrad'): ('error_equiv'), ('h_tower'): ('csp.pt.sf.tower_height'), ('A_sf_UI'): ('helio_area_tot'), (): ('opt_flux_penalty'), ('csp.pt.sf.fixed_land_area', 'land_area_base', 'csp.pt.sf.land_overhead_factor'): ('csp.pt.sf.total_land_area'), ('helio_positions'): ('n_hel'), ('land_max', 'h_tower'): ('land_max_calc'), ('override_opt'): ('is_optimize'), ('n_hel', 'csp.pt.sf.heliostat_area'): ('csp.pt.sf.total_reflective_area'), ('dni_des'): ('dni_des_calc'), ('helio_positions', 'c_atm_0', 'c_atm_1', 'c_atm_2', 'c_atm_3', 'h_tower'): ('c_atm_info'), ('land_min', 'h_tower'): ('land_min_calc') }, 'Wind Farm Specifications': { ('wind_farm_sizing_mode'): ('specify_label'), ('wind_farm_sizing_mode', 'desired_farm_size', 'system_capacity'): ('sizing_warning'), ('wind_farm_num_turbines', 'wind_turbine_kw_rating'): ('system_capacity'), ('wind_farm_sizing_mode', 'windfarm.layout.file_or_controls', 'wind_farm_xCoord_file', 'wind_farm_yCoord_file', 'desired_farm_size', 'wind_turbine_kw_rating', 'wind_turbine_rotor_diameter', 'windfarm.farm.shape', 'windfarm.farm.turbines_per_row', 'windfarm.farm.number_of_rows', 'windfarm.farm.offset', 'windfarm.farm.offset_type', 'windfarm.farm.layout_angle', 'windfarm.farm.turbine_spacing', 'windfarm.farm.row_spacing'): ('wind_farm_num_turbines', 'wind_farm_xCoordinates', 'wind_farm_yCoordinates', 'rows', 'cols') }, 'Wind Resource File': { ('use_specific_wf_wind', 'user_specified_wf_wind', 'wind_resource.file'): ('wind_resource_filename'), ('wind_turbine_hub_ht'): ('wind_resource.requested_ht') }, 'MSPT Dispatch Control': { ('ui_disp_1_turbout', 'ui_disp_2_turbout', 'ui_disp_3_turbout', 'ui_disp_4_turbout', 'ui_disp_5_turbout', 'ui_disp_6_turbout', 'ui_disp_7_turbout', 'ui_disp_8_turbout', 'ui_disp_9_turbout', 'hybrid_tou1', 'hybrid_tou2', 'hybrid_tou3', 'hybrid_tou4', 'hybrid_tou5', 'hybrid_tou6', 'hybrid_tou7', 'hybrid_tou8', 'hybrid_tou9'): ('f_turb_tou_periods', 'F_wc') }, 'Generic CSP Thermal Storage': { ('csp.gss.tes.temp_loss_f3', 'csp.gss.tes.temp_loss_f2', 'csp.gss.tes.temp_loss_f1', 'csp.gss.tes.temp_loss_f0'): ('teshlT_coefs'), ('csp.gss.tes.charge_loss_f3', 'csp.gss.tes.charge_loss_f2', 'csp.gss.tes.charge_loss_f1', 'csp.gss.tes.charge_loss_f0'): ('teshlX_coefs'), ('lon'): ('longitude'), ('lat'): ('latitude'), (): ('itoth'), ('w_des', 'eta_des', 'hrs_tes'): ('csp.gss.tes.max_capacity'), (): ('ntod'), (): ('twb'), (): ('vwind'), (): ('ibn'), (): ('tdb'), (): ('ibh'), (): ('azimuth'), (): ('tilt'), (): ('timezone'), ('exergy_table_ui'): ('exergy_table') }, 'Financial Analysis Parameters': { ('real_discount_rate', 'inflation_rate'): ('nominal_discount_rate') }, 'Molten Salt Tower Storage': { ('tshours'): ('TES_COPY_tshours'), ('q_pb_design'): ('TES_COPY_q_pb_design'), ('T_htf_cold_des'): ('TES_COPY_T_htf_cold_des'), ('P_ref', 'design_eff', 'tshours', 'T_htf_hot_des', 'T_htf_cold_des', 'rec_htf', 'field_fl_props', 'h_tank_min', 'h_tank', 'tank_pairs', 'u_tank'): ('Q_tes', 'tes_avail_vol', 'vol_tank', 'csp.pt.tes.tank_diameter', 'q_dot_tes_est', 'csp.pt.tes.htf_density'), ('csp.pt.tes.tc_fill_type'): ('tc_fill'), ('T_htf_hot_des'): ('TES_COPY_T_htf_hot_des'), ('csp.pt.tes.storage_type'): ('tes_type'), ('csp.pt.tes.tc_fill_type'): ('csp.pt.tes.tc_fill_sph'), ('tc_fill'): ('csp.pt.tes.tc_fill_dens') }, 'Supercritical Carbon Dioxide Power Cycle': { ('dd_sco2_cycle_config'): ('sco2_cycle_config'), ('T_htf_hot_des'): ('SCO2_COPY_T_htf_hot_des'), ('design_eff'): ('SCO2_COPY_design_eff'), ('P_ref'): ('SCO2_COPY_P_ref') }, 'Wind BOS': { ('sales_tax_rate'): ('sales_and_use_tax'), ('wind_farm_num_turbines'): ('access_road_entrances'), ('wind_farm_num_turbines'): ('weather_delay_days_sugg'), ('weather_delay_days_choice', 'weather_delay_days_input', 'wind_farm_num_turbines'): ('weather_delay_days'), ('farm_size_MW'): ('quantity_permanent_met_towers_sugg'), ('quantity_permanent_met_towers_choice', 'quantity_permanent_met_towers_input', 'farm_size_MW'): ('quantity_permanent_met_towers'), ('farm_size_MW'): ('quantity_test_met_towers_sugg'), ('quantity_test_met_towers_choice', 'quantity_test_met_towers_input', 'farm_size_MW'): ('quantity_test_met_towers'), ('wind_turbine_hub_ht'): ('hub_height'), ('wind_farm_num_turbines'): ('construction_time_sugg'), ('om_building_size_choice', 'om_building_size_input', 'farm_size_MW'): ('om_building_size'), ('crane_breakdowns_choice', 'crane_breakdowns_input', 'wind_farm_num_turbines'): ('crane_breakdowns'), ('farm_size_MW'): ('om_building_size_sugg'), ('construction_time_choice', 'construction_time_input', 'wind_farm_num_turbines'): ('construction_time'), ('wind_turbine_kw_rating', 'wind_turbine_rotor_diameter', 'wind_turbine_hub_ht', 'wind_farm_num_turbines', 'interconnect_voltage', 'distance_to_interconnect', 'site_terrain', 'turbine_layout', 'soil_condition', 'construction_time', 'om_building_size', 'quantity_test_met_towers', 'quantity_permanent_met_towers', 'weather_delay_days', 'crane_breakdowns', 'access_road_entrances', 'turbine_capital_cost', 'tower_top_mass', 'delivery_assist_required', 'pad_mount_transformer_required', 'new_switchyard_required', 'rock_trenching_required', 'mv_thermal_backfill', 'mv_overhead_collector', 'performance_bond', 'contingency', 'warranty_management', 'sales_and_use_tax', 'overhead', 'profit_margin', 'development_fee', 'turbine_transportation'): ('bos_total_budgeted_cost', 'transportation_cost', 'insurance_cost', 'engineering_cost', 'power_performance_cost', 'site_compound_security_cost', 'building_cost', 'transmission_cost', 'markup_cost', 'development_cost', 'access_roads_cost', 'foundation_cost', 'erection_cost', 'electrical_materials_cost', 'electrical_installation_cost', 'substation_cost', 'project_mgmt_cost'), ('wind_turbine_kw_rating'): ('machine_rating'), ('wind_farm_num_turbines'): ('number_of_turbines'), ('wind_turbine_rotor_diameter'): ('rotor_diameter'), ('bos_total_budgeted_cost', 'farm_size_MW'): ('bos_total_cost_per_kw'), ('wind_farm_num_turbines'): ('crane_breakdowns_sugg'), ('wind_farm_num_turbines', 'wind_turbine_kw_rating'): ('farm_size_MW') }, 'PV System Design': { ('en_batt', 'batt_power_discharge_max'): ('batt_max_power'), ('subarray1_modules_per_string', 'subarray1_nstrings'): ('subarray1_nmodules'), ('en_batt', 'batt_ac_or_dc', 'system_capacity', 'batt_max_power', 'total_inverter_capacity', 'module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_ref_voc', 'sd11par_Voc0', 'mppt_low_inverter', 'mppt_hi_inverter', 'subarray1_string_voc', 'subarray2_enable', 'subarray2_string_voc', 'subarray3_enable', 'subarray3_string_voc', 'subarray4_enable', 'subarray4_string_voc', 'subarray1_string_vmp', 'subarray2_string_vmp', 'subarray3_string_vmp', 'subarray4_string_vmp', 'vdcmax_inverter'): ('layout_warning'), ('module_model', 'spe_area', 'cec_area', '6par_area', 'snl_area', 'sd11par_area', 'subarray1_modules_per_string', 'subarray1_nstrings', 'subarray1_gcr', 'subarray2_enable', 'subarray2_modules_per_string', 'subarray2_nstrings', 'subarray2_gcr', 'subarray3_enable', 'subarray3_modules_per_string', 'subarray3_nstrings', 'subarray3_gcr', 'subarray4_enable', 'subarray4_modules_per_string', 'subarray4_nstrings', 'subarray4_gcr'): ('total_land_area'), ('total_area'): ('array_area'), ('subarray1_nstrings', 'subarray2_enable', 'subarray2_nstrings', 'subarray3_enable', 'subarray3_nstrings', 'subarray4_enable', 'subarray4_nstrings'): ('num_strings_total'), ('subarray2_enable', 'subarray2_modules_per_string', 'subarray2_nstrings'): ('subarray2_nmodules'), ('module_model', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_voco', 'sd11par_Voc0', 'subarray3_modules_per_string'): ('subarray3_string_voc'), ('inverter_model', 'inv_snl_mppt_hi', 'inv_ds_mppt_hi', 'inv_pd_mppt_hi', 'inv_cec_cg_mppt_hi'): ('mppt_hi_inverter'), ('subarray4_enable', 'subarray4_modules_per_string', 'subarray4_nstrings'): ('subarray4_nmodules'), ('inverter_model', 'inv_snl_vdcmax', 'inv_ds_vdcmax', 'inv_pd_vdcmax', 'inv_cec_cg_vdcmax'): ('vdcmax_inverter'), ('module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'subarray1_modules_per_string'): ('subarray1_string_vmp'), ('inverter_model', 'inv_snl_mppt_low', 'inv_ds_mppt_low', 'inv_pd_mppt_low', 'inv_cec_cg_mppt_low'): ('mppt_low_inverter'), ('module_model', 'spe_power', 'cec_p_mp_ref', '6par_pmp', 'snl_ref_pmp', 'sd11par_Pmp0', 'total_modules'): ('system_capacity'), ('inverter_model', 'inv_snl_pdco', 'inv_ds_pdco', 'inv_pd_pdco', 'inv_cec_cg_pdco', 'inverter_count'): ('total_dc_inverter_capacity'), ('module_model', 'spe_area', 'cec_area', '6par_area', 'snl_area', 'sd11par_area', 'total_modules'): ('total_area'), ('module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'subarray4_modules_per_string'): ('subarray4_string_vmp'), ('module_model', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_voco', 'sd11par_Voc0', 'subarray1_modules_per_string'): ('subarray1_string_voc'), ('module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'subarray2_modules_per_string'): ('subarray2_string_vmp'), ('subarray2_enable', 'subarray3_enable', 'subarray4_enable'): ('num_enabled'), ('inverter_model', 'inv_snl_paco', 'inv_ds_paco', 'inv_pd_paco', 'inv_cec_cg_paco', 'inverter_count'): ('total_inverter_capacity'), ('module_model', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_voco', 'sd11par_Voc0', 'subarray4_modules_per_string'): ('subarray4_string_voc'), ('enable_auto_size', 'module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_ref_voc', 'sd11par_Voc0', 'spe_power', 'cec_p_mp_ref', '6par_pmp', 'snl_ref_pmp', 'sd11par_Pmp0', 'inverter_model', 'inv_snl_mppt_low', 'inv_ds_mppt_low', 'inv_pd_mppt_low', 'inv_cec_cg_mppt_low', 'inv_snl_vdcmax', 'inv_ds_vdcmax', 'inv_pd_vdcmax', 'inv_cec_cg_vdcmax', 'inv_snl_mppt_hi', 'inv_ds_mppt_hi', 'inv_pd_mppt_hi', 'inv_cec_cg_mppt_hi', 'inv_snl_paco', 'inv_ds_paco', 'inv_pd_paco', 'inv_cec_cg_paco', 'en_batt', 'batt_ac_or_dc', 'batt_max_power', 'desired_size', 'desired_dcac_ratio'): ('subarray2_enable', 'subarray3_enable', 'subarray4_enable', 'subarray1_modules_per_string', 'subarray1_nstrings', 'inverter_count'), ('system_capacity', 'total_inverter_capacity'): ('calculated_dcac_ratio'), ('module_model', 'spe_voc', 'cec_v_oc_ref', '6par_voc', 'snl_voco', 'sd11par_Voc0', 'subarray2_modules_per_string'): ('subarray2_string_voc'), ('total_area'): ('total_module_area'), ('subarray1_modules_per_string', 'subarray1_nstrings', 'subarray2_modules_per_string', 'subarray2_nstrings', 'subarray2_enable', 'subarray3_modules_per_string', 'subarray3_nstrings', 'subarray3_enable', 'subarray4_modules_per_string', 'subarray4_nstrings', 'subarray4_enable'): ('total_modules'), ('inverter_model', 'inv_snl_num_mppt', 'inv_ds_num_mppt', 'inv_pd_num_mppt', 'inv_cec_cg_num_mppt'): ('inv_num_mppt'), ('subarray3_enable', 'subarray3_modules_per_string', 'subarray3_nstrings'): ('subarray3_nmodules'), ('module_model', 'spe_vmp', 'cec_v_mp_ref', '6par_vmp', 'snl_ref_vmp', 'sd11par_Vmp0', 'subarray3_modules_per_string'): ('subarray3_string_vmp') }, 'Biopower Plant Specifications': { ('biopwr.plant.nameplate'): ('system_capacity'), ('biopwr.plant.disp9.power', 'biopwr.plant.disp8.power', 'biopwr.plant.disp7.power', 'biopwr.plant.disp6.power', 'biopwr.plant.disp5.power', 'biopwr.plant.disp4.power', 'biopwr.plant.disp3.power', 'biopwr.plant.disp2.power', 'biopwr.plant.disp1.power'): ('biopwr.plant.disp.power'), ('biopwr.plant.boiler.flue_temp'): ('biopwr.plant.boiler.moisture_enth_out'), ('biopwr.plant.boiler.steam_produced', 'biopwr.plant.boiler.num', 'biopwr.plant.boiler.over_design'): ('biopwr.plant.boiler.cap_per_boiler'), ('biopwr.plant.drying_spec_wet'): ('biopwr.plant.drying_spec'), (): ('biopwr.plant.boiler.ref_temp'), ('biopwr.plant.boiler.air_feed', 'biopwr.feedstock.total'): ('biopwr.plant.par_air_blower'), ('biopwr.plant.boiler.steam_grade'): ('biopwr.plant.boiler.steam_pressure'), ('biopwr.plant.par_percent', 'biopwr.plant.nameplate'): ('biopwr.plant.par'), ('biopwr.feedstock.total', 'biopwr.feedstock.total_hhv', 'biopwr.plant.boiler.efficiency', 'biopwr.plant.boiler.steam_enthalpy'): ('biopwr.plant.boiler.steam_produced'), (): ('biopwr.plant.eff.rad_loss'), ('biopwr.plant.tou_option', 'biopwr.plant.ramp_opt', 'biopwr.plant.ramp_opt1', 'biopwr.plant.nameplate', 'biopwr.plant.ramp_opt2'): ('biopwr.plant.ramp_rate'), ('biopwr.plant.boiler.moisture_in_fuel', 'biopwr.plant.boiler.moisture_enth_out', 'biopwr.plant.boiler.moisture_enth_in'): ('biopwr.plant.eff.moisture_loss'), ('biopwr.plant.drying_method', 'biopwr.feedstock.total_moisture', 'biopwr.feedstock.total_hhv', 'biopwr.feedstock.bagasse_frac', 'biopwr.feedstock.barley_frac', 'biopwr.feedstock.stover_frac', 'biopwr.feedstock.rice_frac', 'biopwr.feedstock.wheat_frac', 'biopwr.feedstock.forest_frac', 'biopwr.feedstock.mill_frac', 'biopwr.feedstock.urban_frac', 'biopwr.feedstock.feedstock1_frac', 'biopwr.feedstock.feedstock2_frac', 'biopwr.feedstock.bit_frac', 'biopwr.feedstock.subbit_frac', 'biopwr.feedstock.lig_frac', 'biopwr.feedstock.total_coal_moisture', 'biopwr.plant.drying_spec'): ('biopwr.plant.boiler.moisture_in_fuel'), ('biopwr.plant.boiler.steam_grade'): ('biopwr.plant.boiler.steam_enthalpy'), ('biopwr.feedstock.total_h', 'biopwr.feedstock.total_hhv', 'biopwr.plant.boiler.moisture_enth_out', 'biopwr.plant.boiler.moisture_enth_in'): ('biopwr.plant.eff.latent'), ('biopwr.plant.boiler.ref_temp'): ('biopwr.plant.boiler.moisture_enth_in'), ('biopwr.plant.eff.flue_loss', 'biopwr.plant.eff.fuel_loss', 'biopwr.plant.eff.moisture_loss', 'biopwr.plant.eff.rad_loss', 'biopwr.plant.eff.latent'): ('biopwr.plant.boiler.efficiency'), ('biopwr.plant.boiler.steam_grade'): ('biopwr.plant.boiler.steam_temp'), ('biopwr.plant.boiler.cap_per_boiler', 'biopwr.plant.boiler.num', 'biopwr.plant.boiler.steam_enthalpy', 'biopwr.plant.rated_eff'): ('biopwr.plant.nameplate'), (): ('biopwr.plant.boiler.bfw_enthalpy'), ('biopwr.plant.boiler.air_feed', 'biopwr.plant.boiler.flue_temp', 'biopwr.plant.boiler.ref_temp'): ('biopwr.plant.eff.flue_loss'), ('biopwr.plant.combustor_type', 'biopwr.feedstock.total_c', 'biopwr.plant.boiler.excess_air', 'biopwr.feedstock.total_h', 'biopwr.feedstock.total_o', 'biopwr.feedstock.total_ash', 'biopwr.feedstock.total_hhv'): ('biopwr.plant.boiler.air_feed'), ('biopwr.plant.combustor_type'): ('biopwr.plant.eff.fuel_loss'), ('biopwr.plant.boiler.steam_pressure', 'biopwr.plant.boiler.cap_per_boiler', 'biopwr.plant.boiler.num', 'biopwr.plant.par_air_blower'): ('biopwr.plant.par_bfw_pump') }, 'Dish Capital Costs': { (): ('system_use_recapitalization'), (): ('system_use_lifetime_output'), ('total_installed_cost', 'csp.ds.cost.nameplate'): ('csp.ds.cost.installed_per_capacity'), ('csp.ds.cost.epc.per_acre', 'csp.ds.cost.total_land_area', 'csp.ds.cost.epc.percent', 'total_direct_cost', 'csp.ds.cost.nameplate', 'csp.ds.cost.epc.per_watt', 'csp.ds.cost.epc.fixed'): ('csp.ds.cost.epc.total'), ('csp.ds.total_capacity'): ('csp.ds.cost.nameplate'), ('csp.ds.ncollectors', 'csp.ds.cost.collector.area', 'csp.ds.cost.collector.cost_per_m2'): ('csp.ds.cost.collector'), ('csp.ds.field_area'): ('csp.ds.cost.site_improvements.area'), ('csp.ds.cost.site_improvements.area', 'csp.ds.cost.site_improvements.cost_per_m2'): ('csp.ds.cost.site_improvements'), ('csp.ds.cost.site_improvements', 'csp.ds.cost.collector', 'csp.ds.cost.receiver', 'csp.ds.cost.engine', 'csp.ds.cost.contingency'): ('total_direct_cost'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('A_proj'): ('csp.ds.cost.collector.area'), ('csp.ds.nameplate_capacity'): ('csp.ds.cost.engine.kw'), ('csp.ds.field_area'): ('csp.ds.cost.total_land_area'), ('csp.ds.ncollectors', 'csp.ds.cost.receiver.kw', 'csp.ds.cost.receiver.cost_per_kw'): ('csp.ds.cost.receiver'), ('csp.ds.cost.plm.per_acre', 'csp.ds.cost.total_land_area', 'csp.ds.cost.plm.percent', 'total_direct_cost', 'csp.ds.cost.nameplate', 'csp.ds.cost.plm.per_watt', 'csp.ds.cost.plm.fixed'): ('csp.ds.cost.plm.total'), ('csp.ds.cost.epc.total', 'csp.ds.cost.plm.total', 'csp.ds.cost.sales_tax.total'): ('total_indirect_cost'), ('csp.ds.nameplate_capacity'): ('csp.ds.cost.receiver.kw'), ('csp.ds.cost.contingency_percent', 'csp.ds.cost.site_improvements', 'csp.ds.cost.collector', 'csp.ds.cost.receiver', 'csp.ds.cost.engine'): ('csp.ds.cost.contingency'), ('csp.ds.ncollectors', 'csp.ds.cost.engine.kw', 'csp.ds.cost.engine.cost_per_kw'): ('csp.ds.cost.engine'), ('sales_tax_rate'): ('csp.ds.cost.sales_tax.value'), ('csp.ds.cost.sales_tax.value', 'total_direct_cost', 'csp.ds.cost.sales_tax.percent'): ('csp.ds.cost.sales_tax.total') }, 'Rankine Cycle': { ('csp.pt.pwrb.pressure_mode'): ('tech_type'), ('csp.pt.pwrb.condenser_type'): ('CT') }, 'Solar Resource Data': { ('solar_resource_file'): ('file_name'), ('use_specific_weather_file', 'user_specified_weather_file', 'solar_data_file_name'): ('solar_resource_file') }, 'Generic System Costs': { ('system_capacity', 'genericsys.cost.per_watt'): ('genericsys.cost.plant_scaled'), ('genericsys.cost.plm.fixed', 'genericsys.cost.plm.nonfixed'): ('genericsys.cost.plm.total'), ('system_use_lifetime_output'): ('system_use_recapitalization'), ('genericsys.cost.epc.fixed', 'genericsys.cost.epc.nonfixed'): ('genericsys.cost.epc.total'), ('total_direct_cost', 'genericsys.cost.plm.percent'): ('genericsys.cost.plm.nonfixed'), ('fixed_plant_input'): ('genericsys.cost.plant'), ('genericsys.cost.contingency', 'genericsys.cost.plant', 'genericsys.cost.plant_scaled', 'battery_total'): ('total_direct_cost'), ('genericsys.cost.contingency_percent', 'genericsys.cost.plant', 'genericsys.cost.plant_scaled', 'battery_total'): ('genericsys.cost.contingency'), ('en_batt', 'batt_power_discharge_max'): ('battery_power'), ('total_direct_cost', 'genericsys.cost.epc.percent'): ('genericsys.cost.epc.nonfixed'), ('sales_tax_rate'): ('genericsys.cost.sales_tax.value'), ('genericsys.cost.sales_tax.value', 'total_direct_cost', 'genericsys.cost.sales_tax.percent'): ('genericsys.cost.sales_tax.total'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('total_installed_cost', 'system_capacity'): ('genericsys.cost.installed_per_capacity'), ('battery_energy', 'battery_per_kWh', 'battery_power', 'battery_per_kW'): ('battery_total'), ('genericsys.cost.epc.total', 'genericsys.cost.plm.total', 'genericsys.cost.sales_tax.total'): ('total_indirect_cost'), ('en_batt', 'batt_computed_bank_capacity'): ('battery_energy'), ('system_capacity'): ('nameplate_capacity') }, 'Biopower Feedstock': { (): ('biopwr.feedstock.subbit_c'), (): ('biopwr.feedstock.mill_hhv'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstock.bagasse_lhv', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstock.barley_lhv', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstock.stover_lhv', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstock.rice_lhv', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstock.wheat_lhv', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstock.forest_lhv', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstock.mill_lhv', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstock.urban_lhv', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstock.woody_lhv', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstock.herb_lhv', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstock.feedstock1_hhv', 'biopwr.feedstock.feedstock1_h', 'biopwr.feedstock.feedstock2_biomass_frac', 'biopwr.feedstock.feedstock2_hhv', 'biopwr.feedstock.feedstock2_h'): ('biopwr.feedstock.total_biomass_lhv'), ('biopwr.feedstock.additional_opt', 'biopwr.feedstock.feedstock2_resource', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.feedstock2_biomass_frac'), (): ('biopwr.feedstock.wheat_o'), (): ('biopwr.feedstock.bit_c'), ('biopwr.feedstock.rice_moisture_wet'): ('biopwr.feedstock.rice_moisture'), ('biopwr.feedstock.stover_moisture_wet'): ('biopwr.feedstock.stover_usual_moisture'), (): ('biopwr.feedstock.rice_hhv'), (): ('biopwr.feedstock.lig_ash'), (): ('biopwr.feedstock.herb_o'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.total_biomass', 'biopwr.feedstock.total'): ('biopwr.feedstock.biomass_frac'), (): ('biopwr.feedstock.urban_o'), ('biopwr.feedstock.wheat_resource', 'biopwr.feedstock.wheat_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.wheat_frac'), ('biopwr.feedstock.woody_moisture_wet'): ('biopwr.feedstock.woody_usual_moisture'), ('biopwr.feedstock.herb_resource', 'biopwr.feedstock.herb_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.herb_biomass_frac'), ('biopwr.feedstock.herb_moisture_wet'): ('biopwr.feedstock.herb_usual_moisture'), (): ('biopwr.feedstock.wheat_h'), ('biopwr.feedstock.lig_moisture_wet'): ('biopwr.feedstock.lig_usual_moisture'), ('biopwr.feedstock.feedstock2_moisture'): ('biopwr.feedstock.feedstock2_usual_moisture'), (): ('biopwr.feedstock.barley_hhv'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.lig_resource', 'biopwr.feedstock.total_coal'): ('biopwr.feedstock.lig_coal_frac'), (): ('biopwr.feedstock.bagasse_c'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_resource', 'biopwr.feedstock.subbit_resource', 'biopwr.feedstock.lig_resource'): ('biopwr.feedstock.total_coal'), ('biopwr.feedstock.stover_moisture_wet'): ('biopwr.feedstock.stover_moisture'), (): ('biopwr.feedstock.stover_hhv'), (): ('biopwr.feedstock.herb_h'), ('biopwr.feedstock.feedstock2_opt', 'biopwr.feedstock.feedstock2_user_hhv', 'biopwr.feedstock.feedstock2_calc_hhv'): ('biopwr.feedstock.feedstock2_hhv'), ('biopwr.feedstock.barley_resource', 'biopwr.feedstock.barley_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.barley_biomass_frac'), ('biopwr.feedstock.subbit_moisture_wet'): ('biopwr.feedstock.subbit_moisture'), (): ('biopwr.feedstock.barley_c'), (): ('biopwr.feedstock.urban_h'), ('biopwr.feedstock.stover_resource', 'biopwr.feedstock.stover_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.stover_biomass_frac'), (): ('biopwr.feedstock.subbit_h'), ('biopwr.feedstock.forest_moisture_wet'): ('biopwr.feedstock.forest_usual_moisture'), (): ('biopwr.feedstock.barley_o'), (): ('biopwr.feedstock.woody_ash'), ('biopwr.feedstock.mill_moisture_wet'): ('biopwr.feedstock.mill_moisture'), (): ('biopwr.feedstock.forest_lhv'), (): ('biopwr.feedstock.woody_c'), ('biopwr.feedstock.feedstock1_c', 'biopwr.feedstock.feedstock1_h', 'biopwr.feedstock.feedstock1_n'): ('biopwr.feedstock.feedstock1_calc_hhv'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.subbit_resource', 'biopwr.feedstock.total'): ('biopwr.feedstock.subbit_frac'), (): ('biopwr.feedstock.mill_c'), ('biopwr.feedstock.bagasse_moisture_wet'): ('biopwr.feedstock.bagasse_moisture'), (): ('biopwr.feedstock.stover_ash'), ('biopwr.feedstock.forest_moisture_wet'): ('biopwr.feedstock.forest_moisture'), ('biopwr.feedstock.feedstock1_c', 'biopwr.feedstock.feedstock1_h', 'biopwr.feedstock.feedstock1_n'): ('biopwr.feedstock.feedstock1_o'), ('biopwr.feedstock.wheat_resource', 'biopwr.feedstock.wheat_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.wheat_biomass_frac'), ('biopwr.feedstock.feedstock2_c', 'biopwr.feedstock.feedstock2_h', 'biopwr.feedstock.feedstock2_n'): ('biopwr.feedstock.feedstock2_o'), ('biopwr.feedstock.rice_resource', 'biopwr.feedstock.rice_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.rice_frac'), (): ('biopwr.feedstock.wheat_hhv'), ('biopwr.feedstock.biomass_frac', 'biopwr.feedstock.total_biomass_hhv', 'biopwr.feedstock.coal_frac', 'biopwr.feedstock.total_coal_hhv'): ('biopwr.feedstock.total_hhv'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_coal_frac', 'biopwr.feedstock.bit_hhv', 'biopwr.feedstock.subbit_coal_frac', 'biopwr.feedstock.subbit_hhv', 'biopwr.feedstock.lig_coal_frac', 'biopwr.feedstock.lig_hhv'): ('biopwr.feedstock.total_coal_hhv'), ('biopwr.feedstock.additional_opt', 'biopwr.feedstock.feedstock1_resource', 'biopwr.feedstock.total'): ('biopwr.feedstock.feedstock1_frac'), ('biopwr.feedstock.subbit_moisture_wet'): ('biopwr.feedstock.subbit_usual_moisture'), (): ('biopwr.feedstock.woody_o'), ('biopwr.feedstock.bagasse_frac', 'biopwr.feedstock.bagasse_moisture', 'biopwr.feedstock.barley_frac', 'biopwr.feedstock.barley_moisture', 'biopwr.feedstock.stover_frac', 'biopwr.feedstock.stover_moisture', 'biopwr.feedstock.rice_frac', 'biopwr.feedstock.rice_moisture', 'biopwr.feedstock.wheat_frac', 'biopwr.feedstock.wheat_moisture', 'biopwr.feedstock.forest_frac', 'biopwr.feedstock.forest_moisture', 'biopwr.feedstock.mill_frac', 'biopwr.feedstock.mill_moisture', 'biopwr.feedstock.urban_frac', 'biopwr.feedstock.urban_moisture', 'biopwr.feedstock.woody_frac', 'biopwr.feedstock.woody_moisture', 'biopwr.feedstock.herb_frac', 'biopwr.feedstock.herb_moisture', 'biopwr.feedstock.feedstock1_frac', 'biopwr.feedstock.feedstock1_moisture', 'biopwr.feedstock.feedstock2_frac', 'biopwr.feedstock.feedstock2_moisture', 'biopwr.feedstock.bit_frac', 'biopwr.feedstock.bit_moisture', 'biopwr.feedstock.subbit_frac', 'biopwr.feedstock.subbit_moisture', 'biopwr.feedstock.lig_frac', 'biopwr.feedstock.lig_moisture'): ('biopwr.feedstock.total_moisture'), ('biopwr.feedstock.additional_opt', 'biopwr.feedstock.feedstock1_resource', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.feedstock1_biomass_frac'), (): ('biopwr.feedstock.subbit_ash'), ('biopwr.feedstock.barley_moisture_wet'): ('biopwr.feedstock.barley_usual_moisture'), (): ('biopwr.feedstock.rice_ash'), ('biopwr.feedstock.rice_h'): ('biopwr.feedstock.rice_lhv'), (): ('biopwr.feedstock.herb_hhv'), ('biopwr.feedstock.bagasse_resource', 'biopwr.feedstock.bagasse_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.bagasse_frac'), (): ('biopwr.feedstock.wheat_ash'), ('biopwr.feedstock.rice_resource', 'biopwr.feedstock.rice_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.rice_biomass_frac'), (): ('biopwr.feedstock.herb_c'), (): ('biopwr.feedstock.bit_o'), ('biopwr.feedstock.lig_moisture_wet'): ('biopwr.feedstock.lig_moisture'), ('biopwr.feedstock.biomass_frac', 'biopwr.feedstock.total_biomass_ash', 'biopwr.feedstock.coal_frac', 'biopwr.feedstock.total_coal_ash'): ('biopwr.feedstock.total_ash'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_resource', 'biopwr.feedstock.total_coal'): ('biopwr.feedstock.bit_coal_frac'), ('biopwr.feedstock.total_coal_hhv'): ('biopwr.feedstock.total_coal_hhv_avg'), ('biopwr.feedstock.bagasse_h'): ('biopwr.feedstock.bagasse_lhv'), (): ('biopwr.feedstock.woody_hhv'), (): ('biopwr.feedstock.bit_h'), ('biopwr.feedstock.feedstock2_c', 'biopwr.feedstock.feedstock2_h', 'biopwr.feedstock.feedstock2_n'): ('biopwr.feedstock.feedstock2_calc_hhv'), (): ('biopwr.feedstock.stover_o'), ('biopwr.feedstock.additional_opt', 'biopwr.feedstock.feedstock2_resource', 'biopwr.feedstock.total'): ('biopwr.feedstock.feedstock2_frac'), ('biopwr.feedstock.wheat_moisture_wet'): ('biopwr.feedstock.wheat_moisture'), ('biopwr.feedstock.barley_resource', 'biopwr.feedstock.barley_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.barley_frac'), ('biopwr.feedstock.bagasse_frac', 'biopwr.feedstock.bagasse_h', 'biopwr.feedstock.barley_frac', 'biopwr.feedstock.barley_h', 'biopwr.feedstock.stover_frac', 'biopwr.feedstock.stover_h', 'biopwr.feedstock.rice_frac', 'biopwr.feedstock.rice_h', 'biopwr.feedstock.wheat_frac', 'biopwr.feedstock.wheat_h', 'biopwr.feedstock.forest_frac', 'biopwr.feedstock.forest_h', 'biopwr.feedstock.mill_frac', 'biopwr.feedstock.mill_h', 'biopwr.feedstock.urban_frac', 'biopwr.feedstock.urban_h', 'biopwr.feedstock.woody_frac', 'biopwr.feedstock.woody_h', 'biopwr.feedstock.herb_frac', 'biopwr.feedstock.herb_h', 'biopwr.feedstock.feedstock1_frac', 'biopwr.feedstock.feedstock1_h', 'biopwr.feedstock.feedstock2_frac', 'biopwr.feedstock.feedstock2_h', 'biopwr.feedstock.bit_frac', 'biopwr.feedstock.bit_h', 'biopwr.feedstock.subbit_frac', 'biopwr.feedstock.subbit_h', 'biopwr.feedstock.lig_frac', 'biopwr.feedstock.lig_h'): ('biopwr.feedstock.total_h'), (): ('biopwr.feedstock.stover_lhv'), (): ('biopwr.feedstock.bagasse_ash'), ('biopwr.feedstock.wheat_moisture_wet'): ('biopwr.feedstock.wheat_usual_moisture'), (): ('biopwr.feedstock.forest_h'), ('biopwr.feedstock.woody_resource', 'biopwr.feedstock.woody_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.woody_biomass_frac'), ('biopwr.feedstock.bagasse_frac', 'biopwr.feedstock.bagasse_c', 'biopwr.feedstock.barley_frac', 'biopwr.feedstock.barley_c', 'biopwr.feedstock.stover_frac', 'biopwr.feedstock.stover_c', 'biopwr.feedstock.rice_frac', 'biopwr.feedstock.rice_c', 'biopwr.feedstock.wheat_frac', 'biopwr.feedstock.wheat_c', 'biopwr.feedstock.forest_frac', 'biopwr.feedstock.forest_c', 'biopwr.feedstock.mill_frac', 'biopwr.feedstock.mill_c', 'biopwr.feedstock.urban_frac', 'biopwr.feedstock.urban_c', 'biopwr.feedstock.woody_frac', 'biopwr.feedstock.woody_c', 'biopwr.feedstock.herb_frac', 'biopwr.feedstock.herb_c', 'biopwr.feedstock.feedstock1_frac', 'biopwr.feedstock.feedstock1_c', 'biopwr.feedstock.feedstock2_frac', 'biopwr.feedstock.feedstock2_c', 'biopwr.feedstock.bit_frac', 'biopwr.feedstock.bit_c', 'biopwr.feedstock.subbit_frac', 'biopwr.feedstock.subbit_c', 'biopwr.feedstock.lig_frac', 'biopwr.feedstock.lig_c'): ('biopwr.feedstock.total_c'), ('biopwr.feedstock.herb_moisture_wet'): ('biopwr.feedstock.herb_moisture'), (): ('biopwr.feedstock.rice_o'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstock.bagasse_hhv', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstock.barley_hhv', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstock.stover_hhv', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstock.rice_hhv', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstock.wheat_hhv', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstock.forest_hhv', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstock.mill_hhv', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstock.urban_hhv', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstock.woody_hhv', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstock.herb_hhv', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstock.feedstock1_hhv', 'biopwr.feedstock.feedstock2_biomass_frac', 'biopwr.feedstock.feedstock2_hhv'): ('biopwr.feedstock.total_biomass_hhv'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.lig_resource', 'biopwr.feedstock.total'): ('biopwr.feedstock.lig_frac'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_coal_frac', 'biopwr.feedstock.subbit_coal_frac', 'biopwr.feedstock.lig_coal_frac'): ('biopwr.feedstock.total_coal_lhv'), ('biopwr.feedstock.forest_resource', 'biopwr.feedstock.forest_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.forest_frac'), (): ('biopwr.feedstock.barley_ash'), (): ('biopwr.feedstock.stover_c'), ('biopwr.feedstock.bagasse_frac', 'biopwr.feedstock.bagasse_o', 'biopwr.feedstock.barley_frac', 'biopwr.feedstock.barley_o', 'biopwr.feedstock.stover_frac', 'biopwr.feedstock.stover_o', 'biopwr.feedstock.rice_frac', 'biopwr.feedstock.rice_o', 'biopwr.feedstock.wheat_frac', 'biopwr.feedstock.wheat_o', 'biopwr.feedstock.forest_frac', 'biopwr.feedstock.forest_o', 'biopwr.feedstock.mill_frac', 'biopwr.feedstock.mill_o', 'biopwr.feedstock.urban_frac', 'biopwr.feedstock.urban_o', 'biopwr.feedstock.woody_frac', 'biopwr.feedstock.woody_o', 'biopwr.feedstock.herb_frac', 'biopwr.feedstock.herb_o', 'biopwr.feedstock.feedstock1_frac', 'biopwr.feedstock.feedstock1_o', 'biopwr.feedstock.feedstock2_frac', 'biopwr.feedstock.feedstock2_o', 'biopwr.feedstock.bit_frac', 'biopwr.feedstock.bit_o', 'biopwr.feedstock.subbit_frac', 'biopwr.feedstock.subbit_o', 'biopwr.feedstock.lig_frac', 'biopwr.feedstock.lig_o'): ('biopwr.feedstock.total_o'), (): ('biopwr.feedstock.bit_ash'), (): ('biopwr.feedstock.bagasse_h'), (): ('biopwr.feedstock.mill_ash'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_coal_frac', 'biopwr.feedstock.bit_ash', 'biopwr.feedstock.subbit_coal_frac', 'biopwr.feedstock.subbit_ash', 'biopwr.feedstock.lig_coal_frac', 'biopwr.feedstock.lig_ash'): ('biopwr.feedstock.total_coal_ash'), ('biopwr.feedstock.barley_moisture_wet'): ('biopwr.feedstock.barley_moisture'), (): ('biopwr.feedstock.bagasse_o'), (): ('biopwr.feedstock.stover_h'), (): ('biopwr.feedstock.woody_lhv'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstock.bagasse_c', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstock.barley_c', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstock.stover_c', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstock.rice_c', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstock.wheat_c', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstock.forest_c', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstock.mill_c', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstock.urban_c', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstock.woody_c', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstock.herb_c', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstock.feedstock2_biomass_frac'): ('biopwr.feedstock.total_biomass_c'), ('biopwr.feedstock.rice_moisture_wet'): ('biopwr.feedstock.rice_usual_moisture'), (): ('biopwr.feedstock.wheat_lhv'), ('biopwr.feedstock.forest_resource', 'biopwr.feedstock.forest_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.forest_biomass_frac'), (): ('biopwr.feedstock.mill_o'), ('biopwr.feedstock.feedstock1_opt', 'biopwr.feedstock.feedstock1_user_hhv', 'biopwr.feedstock.feedstock1_calc_hhv'): ('biopwr.feedstock.feedstock1_hhv'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.total_coal'): ('biopwr.feedstock.total'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.subbit_resource', 'biopwr.feedstock.total_coal'): ('biopwr.feedstock.subbit_coal_frac'), ('biopwr.plant.nameplate'): ('biopwr.feedstock.total_nameplate'), ('biopwr.feedstock.stover_resource', 'biopwr.feedstock.stover_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.stover_frac'), (): ('biopwr.feedstock.forest_c'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.total_coal', 'biopwr.feedstock.total'): ('biopwr.feedstock.coal_frac'), ('biopwr.feedstock.feedstock1_moisture_wet'): ('biopwr.feedstock.feedstock1_moisture'), ('biopwr.feedstock.feedstock2_moisture'): ('biopwr.feedstock.feedstock1_usual_moisture'), (): ('biopwr.feedstock.lig_c'), (): ('biopwr.feedstock.rice_c'), (): ('biopwr.feedstock.bagasse_hhv'), (): ('biopwr.feedstock.barley_h'), ('biopwr.feedstock.urban_moisture_wet'): ('biopwr.feedstock.urban_usual_moisture'), ('biopwr.feedstock.total_biomass_hhv'): ('biopwr.feedstock.total_biomass_hhv_avg'), (): ('biopwr.feedstock.herb_ash'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_coal_frac', 'biopwr.feedstock.bit_moisture', 'biopwr.feedstock.subbit_coal_frac', 'biopwr.feedstock.subbit_moisture', 'biopwr.feedstock.lig_coal_frac', 'biopwr.feedstock.lig_moisture'): ('biopwr.feedstock.total_coal_moisture'), ('biopwr.feedstock.biomass_frac', 'biopwr.feedstock.total_biomass_lhv', 'biopwr.feedstock.coal_frac', 'biopwr.feedstock.total_coal_lhv'): ('biopwr.feedstock.total_lhv'), (): ('biopwr.feedstock.forest_ash'), ('biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstock.bagasse_moisture', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstock.barley_moisture', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstock.stover_moisture', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstock.rice_moisture', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstock.wheat_moisture', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstock.forest_moisture', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstock.mill_moisture', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstock.urban_moisture', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstock.woody_moisture', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstock.herb_moisture', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstock.feedstock1_moisture', 'biopwr.feedstock.feedstock2_biomass_frac', 'biopwr.feedstock.feedstock2_moisture'): ('biopwr.feedstock.total_biomass_moisture'), ('biopwr.feedstock.mill_resource', 'biopwr.feedstock.mill_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.mill_frac'), (): ('biopwr.feedstock.lig_o'), (): ('biopwr.feedstock.urban_lhv'), ('biopwr.feedstock.urban_moisture_wet'): ('biopwr.feedstock.urban_moisture'), (): ('biopwr.feedstock.urban_ash'), ('biopwr.feedstock.bagasse_resource', 'biopwr.feedstock.bagasse_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.bagasse_biomass_frac'), (): ('biopwr.feedstock.wheat_c'), ('biopwr.feedstock.bagasse_moisture_wet'): ('biopwr.feedstock.bagasse_usual_moisture'), ('biopwr.feedstock.mill_resource', 'biopwr.feedstock.mill_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.mill_biomass_frac'), ('biopwr.feedstock.herb_resource', 'biopwr.feedstock.herb_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.herb_frac'), ('biopwr.feedstock.herb_hhv', 'biopwr.feedstock.herb_h'): ('biopwr.feedstock.herb_lhv'), (): ('biopwr.feedstock.rice_h'), (): ('biopwr.feedstock.barley_lhv'), ('biopwr.feedstock.woody_resource', 'biopwr.feedstock.woody_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.woody_frac'), (): ('biopwr.feedstock.lig_h'), ('biopwr.feedstock.feedstock2_moisture_wet'): ('biopwr.feedstock.feedstock2_moisture'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_resource', 'biopwr.feedstock.total'): ('biopwr.feedstock.bit_frac'), ('biopwr.feedstock.additional_opt', 'biopwr.feedstock.bagasse_resource', 'biopwr.feedstock.bagasse_obtainable', 'biopwr.feedstock.barley_resource', 'biopwr.feedstock.barley_obtainable', 'biopwr.feedstock.stover_resource', 'biopwr.feedstock.stover_obtainable', 'biopwr.feedstock.rice_resource', 'biopwr.feedstock.rice_obtainable', 'biopwr.feedstock.wheat_resource', 'biopwr.feedstock.wheat_obtainable', 'biopwr.feedstock.forest_resource', 'biopwr.feedstock.forest_obtainable', 'biopwr.feedstock.mill_resource', 'biopwr.feedstock.mill_obtainable', 'biopwr.feedstock.urban_resource', 'biopwr.feedstock.urban_obtainable', 'biopwr.feedstock.woody_resource', 'biopwr.feedstock.woody_obtainable', 'biopwr.feedstock.herb_resource', 'biopwr.feedstock.herb_obtainable', 'biopwr.feedstock.feedstock1_resource', 'biopwr.feedstock.feedstock2_resource'): ('biopwr.feedstock.total_biomass'), ('biopwr.feedstock.bit_moisture_wet'): ('biopwr.feedstock.bit_moisture'), ('biopwr.feedstock.bit_moisture_wet'): ('biopwr.feedstock.bit_usual_moisture'), (): ('biopwr.feedstock.urban_hhv'), ('biopwr.feedstock.urban_resource', 'biopwr.feedstock.urban_obtainable', 'biopwr.feedstock.total'): ('biopwr.feedstock.urban_frac'), (): ('biopwr.feedstock.forest_hhv'), (): ('biopwr.feedstock.forest_o'), (): ('biopwr.feedstock.mill_lhv'), (): ('biopwr.feedstock.woody_h'), ('biopwr.feedstock.urban_resource', 'biopwr.feedstock.urban_obtainable', 'biopwr.feedstock.total_biomass'): ('biopwr.feedstock.urban_biomass_frac'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstock.bagasse_ash', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstock.barley_ash', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstock.stover_ash', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstock.rice_ash', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstock.wheat_ash', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstock.forest_ash', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstock.mill_ash', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstock.urban_ash', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstock.woody_ash', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstock.herb_ash', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstock.feedstock2_biomass_frac'): ('biopwr.feedstock.total_biomass_ash'), ('biopwr.feedstock.mill_moisture_wet'): ('biopwr.feedstock.mill_usual_moisture'), (): ('biopwr.feedstock.subbit_o'), ('biopwr.feedstock.woody_moisture_wet'): ('biopwr.feedstock.woody_moisture'), (): ('biopwr.feedstock.urban_c'), (): ('biopwr.feedstock.mill_h') }, 'Financial Third Party Ownership': { ('real_discount_rate', 'inflation_rate'): ('nominal_discount_rate') }, 'HCPV Module': { ('module_a0', 'module_a1', 'module_a2', 'module_a3', 'module_a4'): ('hcpv.module.mam_ref'), ('module_concentration', 'hcpv.module.rad1'): ('hcpv.module.rad1X'), ('hcpv.module.mjeff4', 'hcpv.module.mjeff3', 'hcpv.module.mjeff2', 'hcpv.module.mjeff1', 'hcpv.module.mjeff0'): ('module_mjeff'), ('module_reference', 'hcpv.module.mjeff0', 'hcpv.module.mjeff1', 'hcpv.module.mjeff2', 'hcpv.module.mjeff3', 'hcpv.module.mjeff4', 'module_optical_error', 'module_flutter_loss_coeff', 'module_alignment_error', 'hcpv.module.mam_ref'): ('hcpv.module.est_eff'), ('hcpv.module.rad4', 'hcpv.module.rad3', 'hcpv.module.rad2', 'hcpv.module.rad1', 'hcpv.module.rad0'): ('module_rad'), ('module_reference', 'hcpv.module.mjeff0', 'hcpv.module.rad0', 'hcpv.module.mjeff1', 'hcpv.module.rad1', 'hcpv.module.mjeff2', 'hcpv.module.rad2', 'hcpv.module.mjeff3', 'hcpv.module.rad3', 'hcpv.module.mjeff4', 'hcpv.module.rad4', 'hcpv.module.area', 'module_optical_error', 'module_flutter_loss_coeff', 'module_alignment_error', 'hcpv.module.mam_ref'): ('hcpv.module.power'), ('module_concentration', 'hcpv.module.rad3'): ('hcpv.module.rad3X'), ('module_concentration', 'hcpv.module.rad4'): ('hcpv.module.rad4X'), ('module_concentration', 'hcpv.module.rad0'): ('hcpv.module.rad0X'), ('module_concentration', 'hcpv.module.rad2'): ('hcpv.module.rad2X'), ('module_reference', 'hcpv.module.rad0', 'hcpv.module.rad1', 'hcpv.module.rad2', 'hcpv.module.rad3', 'hcpv.module.rad4', 'module_a', 'module_b', 'module_dT'): ('hcpv.module.cell_temp'), ('module_concentration', 'module_cell_area', 'module_ncells'): ('hcpv.module.area') }, 'Battery Model Simple': { (): ('batt_simple_meter_position') }, 'Physical Trough Receiver Type 4': { ('csp_dtr_hce_var1_field_fraction_4', 'csp_dtr_hce_var1_bellows_shadowing_4', 'csp_dtr_hce_var1_hce_dirt_4', 'csp_dtr_hce_var1_abs_abs_4', 'csp_dtr_hce_var1_env_trans_4', 'csp_dtr_hce_var2_field_fraction_4', 'csp_dtr_hce_var2_bellows_shadowing_4', 'csp_dtr_hce_var2_hce_dirt_4', 'csp_dtr_hce_var2_abs_abs_4', 'csp_dtr_hce_var2_env_trans_4', 'csp_dtr_hce_var3_field_fraction_4', 'csp_dtr_hce_var3_bellows_shadowing_4', 'csp_dtr_hce_var3_hce_dirt_4', 'csp_dtr_hce_var3_abs_abs_4', 'csp_dtr_hce_var3_env_trans_4', 'csp_dtr_hce_var4_field_fraction_4', 'csp_dtr_hce_var4_bellows_shadowing_4', 'csp_dtr_hce_var4_hce_dirt_4', 'csp_dtr_hce_var4_abs_abs_4', 'csp_dtr_hce_var4_env_trans_4'): ('csp_dtr_hce_optical_eff_4'), ('csp_dtr_hce_var1_field_fraction_4', 'csp_dtr_hce_var1_rated_heat_loss_4', 'csp_dtr_hce_var2_field_fraction_4', 'csp_dtr_hce_var2_rated_heat_loss_4', 'csp_dtr_hce_var3_field_fraction_4', 'csp_dtr_hce_var3_rated_heat_loss_4', 'csp_dtr_hce_var4_field_fraction_4', 'csp_dtr_hce_var4_rated_heat_loss_4'): ('csp_dtr_hce_design_heat_loss_4') }, 'Physical Trough Collector Type 4': { ('csp_dtr_sca_tracking_error_4', 'csp_dtr_sca_geometry_effects_4', 'csp_dtr_sca_clean_reflectivity_4', 'csp_dtr_sca_mirror_dirt_4', 'csp_dtr_sca_general_error_4'): ('csp_dtr_sca_calc_sca_eff_4'), ('csp_dtr_sca_ave_focal_len_4', 'csp_dtr_sca_calc_theta_4', 'csp_dtr_sca_piping_dist_4'): ('csp_dtr_sca_calc_end_gain_4'), ('csp_dtr_sca_calc_zenith_4', 'tilt', 'azimuth'): ('csp_dtr_sca_calc_costh_4'), ('lat'): ('csp_dtr_sca_calc_latitude_4'), ('csp_dtr_sca_calc_costh_4'): ('csp_dtr_sca_calc_theta_4'), ('lat'): ('csp_dtr_sca_calc_zenith_4'), ('csp_dtr_sca_length_4', 'csp_dtr_sca_ncol_per_sca_4'): ('csp_dtr_sca_ap_length_4'), ('IAMs_4', 'csp_dtr_sca_calc_theta_4', 'csp_dtr_sca_calc_costh_4'): ('csp_dtr_sca_calc_iam_4'), ('csp_dtr_sca_ave_focal_len_4', 'csp_dtr_sca_calc_theta_4', 'nSCA', 'csp_dtr_sca_calc_end_gain_4', 'csp_dtr_sca_length_4', 'csp_dtr_sca_ncol_per_sca_4'): ('csp_dtr_sca_calc_end_loss_4') }, 'Linear Fresnel Parasitics': { ('PB_fixed_par', 'demand_var'): ('csp.lf.par.fixed_total'), ('csp.lf.par.bop_val', 'csp.lf.par.bop_pf', 'csp.lf.par.bop_c0', 'csp.lf.par.bop_c1', 'csp.lf.par.bop_c2'): ('bop_array'), ('SCA_drives_elec', 'csp.lf.sf.dp.actual_aper'): ('csp.lf.par.tracking_total'), ('csp.lf.par.aux_val', 'csp.lf.par.aux_pf', 'csp.lf.par.aux_c0', 'csp.lf.par.aux_c1', 'csp.lf.par.aux_c2'): ('aux_array'), ('csp.lf.par.bop_val', 'csp.lf.par.bop_pf', 'csp.lf.par.bop_c0', 'csp.lf.par.bop_c1', 'csp.lf.par.bop_c2', 'demand_var'): ('csp.lf.par.bop_total'), ('csp.lf.par.aux_val', 'csp.lf.par.aux_pf', 'csp.lf.par.aux_c0', 'csp.lf.par.aux_c1', 'csp.lf.par.aux_c2', 'demand_var'): ('csp.lf.par.aux_total') }, 'ISCC Molten Salt Tower Receiver': { ('piping_length', 'piping_loss'): ('piping_loss_tot'), ('THT', 'piping_length_mult', 'piping_length_const'): ('piping_length'), ('N_panels'): ('n_flux_x'), (): ('tower_technology'), (): ('conv_forced'), ('THT'): ('h_tower'), ('h_rec_panel', 'csp.pt.rec.cav_lip_height_ratio'): ('csp.pt.rec.cav_lip_height'), ('D_rec', 'H_rec'): ('rec_aspect'), (): ('rec_angle'), (): ('h_wind_meas'), (): ('eps_wavelength'), (): ('conv_wind_dir'), (): ('n_flux_y'), (): ('conv_coupled'), ('T_htf_cold_des', 'T_htf_hot_des'): ('csp.pt.rec.htf_t_avg'), ('csp.pt.rec.htf_type', 'csp.pt.rec.htf_t_avg', 'field_fl_props'): ('csp.pt.rec.htf_c_avg'), ('csp.pt.rec.max_flow_to_rec'): ('m_dot_htf_max'), ('solarm', 'q_pb_design'): ('Q_rec_des'), ('csp.pt.rec.cav_ap_height'): ('csp.pt.rec.cav_panel_height'), ('rec_d_spec', 'csp.pt.rec.cav_ap_hw_ratio'): ('csp.pt.rec.cav_ap_height'), (): ('conv_model'), ('csp.pt.rec.max_oper_frac', 'Q_rec_des', 'csp.pt.rec.htf_c_avg', 'T_htf_hot_des', 'T_htf_cold_des'): ('csp.pt.rec.max_flow_to_rec'), ('csp.pt.rec.htf_type'): ('rec_htf'), ('csp.pt.rec.flow_pattern'): ('Flow_type'), ('field_fl_props'): ('user_fluid'), ('csp.pt.rec.material_type'): ('mat_tube') }, 'Battery Current and Capacity': { ('batt_Qexp_percent', 'batt_Qfull', 'batt_Qnom_percent', 'batt_computed_bank_capacity', 'batt_computed_voltage'): ('batt_Qexp', 'batt_Qnom', 'batt_Qfull_flow'), ('batt_computed_strings', 'LeadAcid_q10', 'batt_Qfull', 'LeadAcid_q20', 'LeadAcid_qn'): ('LeadAcid_q10_computed', 'LeadAcid_q20_computed', 'LeadAcid_qn_computed'), ('batt_size_choice', 'batt_chem', 'batt_bank_power', 'batt_bank_size', 'batt_bank_size_dc_ac', 'batt_dc_ac_efficiency', 'batt_bank_power_dc_ac', 'batt_Qfull', 'batt_bank_voltage', 'batt_Vnom_default', 'batt_bank_ncells_serial', 'batt_bank_nstrings', 'batt_C_rate_max_discharge_input', 'batt_C_rate_max_charge_input', 'batt_current_choice', 'batt_cell_power_discharge_max', 'batt_cell_current_discharge_max', 'batt_bank_nseries_stacks', 'batt_bank_size_specify', 'batt_cell_power_charge_max', 'batt_cell_current_charge_max'): ('batt_computed_voltage', 'batt_computed_series', 'batt_computed_strings', 'batt_num_cells', 'batt_computed_bank_capacity', 'batt_power_discharge_max', 'batt_power_charge_max', 'batt_time_capacity', 'batt_C_rate_max_charge', 'batt_C_rate_max_discharge', 'batt_current_charge_max', 'batt_current_discharge_max', 'batt_computed_stacks_series') }, 'Geothermal Costs': { ('geotherm.cost.recap'): ('system_recapitalization_cost'), (): ('system_use_lifetime_output'), ('total_installed_cost'): ('geotherm.cost.total_installed_millions'), ('sales_tax_rate'): ('geotherm.cost.sales_tax.value'), ('geotherm.cost.prod_num_wells', 'geotherm.cost.inj_num_wells'): ('geotherm.cost.prod_inj_num_wells'), ('geotherm.cost.prod_cost_curve', 'resource_depth'): ('geotherm.cost.prod_per_well'), ('geotherm.cost.plm.fixed', 'geotherm.cost.plm.nonfixed'): ('geotherm.cost.plm.total'), ('geotherm.cost.inj_cost_curve', 'resource_depth'): ('geotherm.cost.inj_per_well'), ('geotherm.cost.plant_total.calc', 'geotherm.cost.plant_total.amount_specified', 'geotherm.cost.plant_total'): ('geotherm.cost.plant_total.amount'), ('geotherm.cost.conf_num_wells', 'geotherm.cost.confirm_wells_percent'): ('geotherm.cost.confirm_wells_num'), ('geotherm.cost.conf_per_well', 'geotherm.cost.conf_num_wells'): ('geotherm.cost.conf_drill'), ('pump_depth'): ('geotherm.cost.pump_depth'), ('geotherm.cost.contingency_percent', 'geotherm.cost.capital_total'): ('geotherm.cost.contingency'), ('geotherm.cost.inj_per_well', 'geotherm.cost.inj_num_wells'): ('geotherm.cost.inj_drill'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('gross_output'): ('geotherm.cost.plant_size'), ('geotherm.cost.surf_per_well', 'geotherm.cost.surf_num_wells'): ('geotherm.cost.surf_non_drill'), ('geotherm.cost.plant_auto_estimate', 'geotherm.cost.plant_per_kW_input', 'geotherm.cost.plant_size', 'geotherm.cost.plant_per_kW'): ('geotherm.cost.plant_total'), ('pump_size_hp'): ('geotherm.cost.pump_size'), ('geotherm.cost.inj_wells_drilled'): ('geotherm.cost.inj_num_wells'), ('total_installed_cost', 'geotherm.net_output'): ('geotherm.cost.installed_per_capacity'), ('geotherm.cost.stim_per_well', 'geotherm.cost.stim_num_wells'): ('geotherm.cost.stim_non_drill'), ('geotherm.cost.prod_drill', 'geotherm.cost.inj_drill'): ('geotherm.cost.prod_inj_drill'), ('geotherm.cost.surf_non_drill'): ('geotherm.cost.surf_total'), ('geotherm.cost.prod_wells_drilled'): ('geotherm.cost.prod_num_wells'), ('geotherm.cost.pump_per_foot', 'geotherm.cost.pump_depth'): ('geotherm.cost.pump_installation'), ('geotherm.cost.prod_req'): ('geotherm.cost.num_pumps'), ('geotherm.cost.epc.fixed', 'geotherm.cost.epc.nonfixed'): ('geotherm.cost.epc.total'), ('geotherm.cost.prod_inj_drill', 'geotherm.cost.prod_inj_non_drill'): ('geotherm.cost.prod_inj_total'), ('geotherm.cost.stim_non_drill'): ('geotherm.cost.stim_total'), ('geotherm.cost.prod_req', 'geotherm.cost.inj_num_wells'): ('geotherm.cost.stim_num_wells'), ('geotherm.cost.prod_req', 'geotherm.cost.confirm_wells_num'): ('geotherm.cost.prod_wells_drilled'), ('geotherm.cost.pump_per_hp', 'geotherm.cost.pump_size'): ('geotherm.cost.pump_per_pump'), ('geotherm.cost.prod_req', 'geotherm.cost.inj_num_wells'): ('geotherm.cost.surf_num_wells'), ('geotherm.cost.contingency', 'geotherm.cost.capital_total'): ('total_direct_cost'), ('geotherm.cost.pump_total_per_pump', 'geotherm.cost.num_pumps'): ('geotherm.cost.pumps_total'), ('geotherm.cost.drilling.calc', 'geotherm.cost.drilling.amount_specified', 'geotherm.cost.expl_total', 'geotherm.cost.conf_total', 'geotherm.cost.prod_inj_total', 'geotherm.cost.surf_total', 'geotherm.cost.stim_total'): ('geotherm.cost.drilling.amount'), ('geotherm.cost.recap_use_calc', 'geotherm.cost.recap_specified', 'geotherm.cost.conf_drill', 'geotherm.cost.prod_inj_drill', 'geotherm.cost.surf_total', 'geotherm.cost.pumps_total'): ('geotherm.cost.recap'), ('geotherm.cost.indirect.calc', 'geotherm.cost.indirect.amount_specified', 'geotherm.cost.epc.total', 'geotherm.cost.plm.total', 'geotherm.cost.sales_tax.total'): ('total_indirect_cost'), ('geotherm.cost.prod_req', 'geotherm.cost.inj_prod_well_ratio'): ('geotherm.cost.inj_wells_drilled'), ('geotherm.cost.pump_installation', 'geotherm.cost.pump_per_pump'): ('geotherm.cost.pump_total_per_pump'), ('total_direct_cost', 'geotherm.cost.plm.percent'): ('geotherm.cost.plm.nonfixed'), ('total_direct_cost', 'geotherm.cost.epc.percent'): ('geotherm.cost.epc.nonfixed'), (): ('system_use_recapitalization'), ('geotherm.cost.expl_per_well', 'geotherm.cost.expl_num_wells'): ('geotherm.cost.expl_drill'), ('geotherm.cost.expl_multiplier', 'geotherm.cost.prod_per_well'): ('geotherm.cost.expl_per_well'), ('geotherm.cost.pumping.calc', 'geotherm.cost.pumping.amount_specified', 'geotherm.cost.pumps_total'): ('geotherm.cost.pumping.amount'), ('geotherm.cost.conf_multiplier', 'geotherm.cost.prod_per_well'): ('geotherm.cost.conf_per_well'), ('geotherm.cost.drilling.amount', 'geotherm.cost.plant_total.amount', 'geotherm.cost.pumping.amount'): ('geotherm.cost.capital_total'), ('geotherm.cost.plant_auto_estimate', 'nameplate', 'resource_type', 'resource_temp', 'resource_depth', 'geothermal_analysis_period', 'model_choice', 'analysis_type', 'num_wells', 'conversion_type', 'plant_efficiency_input', 'conversion_subtype', 'decline_type', 'temp_decline_rate', 'temp_decline_max', 'wet_bulb_temp', 'ambient_pressure', 'well_flow_rate', 'pump_efficiency', 'delta_pressure_equip', 'excess_pressure_pump', 'well_diameter', 'casing_size', 'inj_well_diam', 'design_temp', 'specify_pump_work', 'specified_pump_work_amount', 'rock_thermal_conductivity', 'rock_specific_heat', 'rock_density', 'reservoir_pressure_change_type', 'reservoir_pressure_change', 'reservoir_width', 'reservoir_height', 'reservoir_permeability', 'inj_prod_well_distance', 'subsurface_water_loss', 'fracture_aperature', 'fracture_width', 'num_fractures', 'fracture_angle', 'hr_pl_nlev', 'geotherm.cost.plant_size'): ('geotherm.cost.plant_per_kW'), ('num_wells_getem'): ('geotherm.cost.prod_req'), ('geotherm.cost.prod_per_well', 'geotherm.cost.prod_num_wells'): ('geotherm.cost.prod_drill'), ('geotherm.cost.conf_drill', 'geotherm.cost.conf_non_drill'): ('geotherm.cost.conf_total'), ('geotherm.cost.sales_tax.value', 'total_direct_cost', 'geotherm.cost.sales_tax.percent'): ('geotherm.cost.sales_tax.total'), ('geotherm.cost.expl_drill', 'geotherm.cost.expl_non_drill'): ('geotherm.cost.expl_total') }, 'Tower SolarPilot Capital Costs': { ('csp.pt.cost.heliostats_m2', 'site_spec_cost', 'heliostat_spec_cost', 'cost_sf_fixed', 'ui_tower_height', 'ui_receiver_height', 'ui_heliostat_height', 'tower_fixed_cost', 'tower_exp', 'csp.pt.cost.receiver.area', 'rec_ref_cost', 'rec_ref_area', 'rec_cost_exp', 'csp.pt.cost.storage_mwht', 'tes_spec_cost', 'csp.pt.cost.power_block_mwe', 'plant_spec_cost', 'bop_spec_cost', 'fossil_spec_cost', 'contingency_rate', 'csp.pt.cost.total_land_area', 'csp.pt.cost.nameplate', 'csp.pt.cost.epc.per_acre', 'csp.pt.cost.epc.percent', 'csp.pt.cost.epc.per_watt', 'csp.pt.cost.epc.fixed', 'land_spec_cost', 'csp.pt.cost.plm.percent', 'csp.pt.cost.plm.per_watt', 'csp.pt.cost.plm.fixed', 'sales_tax_frac', 'csp.pt.cost.sales_tax.value'): ('csp.pt.cost.site_improvements', 'csp.pt.cost.heliostats', 'csp.pt.cost.tower', 'csp.pt.cost.receiver', 'csp.pt.cost.storage', 'csp.pt.cost.power_block', 'csp.pt.cost.bop', 'csp.pt.cost.fossil', 'ui_direct_subtotal', 'csp.pt.cost.contingency', 'total_direct_cost', 'csp.pt.cost.epc.total', 'csp.pt.cost.plm.total', 'csp.pt.cost.sales_tax.total', 'total_indirect_cost', 'total_installed_cost', 'csp.pt.cost.installed_per_capacity'), (): ('system_use_lifetime_output'), ('sales_tax_rate'): ('csp.pt.cost.sales_tax.value'), ('P_ref', 'demand_var'): ('csp.pt.cost.power_block_mwe'), ('P_ref', 'design_eff', 'tshours'): ('csp.pt.cost.storage_mwht'), ('receiver_type', 'rec_height', 'D_rec', 'rec_d_spec', 'csp.pt.rec.cav_ap_height', 'd_rec'): ('csp.pt.cost.receiver.area'), ('helio_height'): ('ui_heliostat_height'), ('nameplate'): ('csp.pt.cost.nameplate'), ('receiver_type', 'rec_height', 'csp.pt.rec.cav_ap_height'): ('csp.pt.cost.rec_height'), ('rec_height'): ('ui_receiver_height'), (): ('system_use_recapitalization'), ('THT', 'h_tower'): ('ui_tower_height'), ('csp.pt.sf.total_land_area'): ('csp.pt.cost.total_land_area'), ('A_sf_UI'): ('csp.pt.cost.site_improvements_m2'), ('A_sf_UI'): ('csp.pt.cost.heliostats_m2') }, 'Physical Trough Collector Header': { ('IAMs_1', 'IAMs_2', 'IAMs_3', 'IAMs_4'): ('IAM_matrix'), ('csp_dtr_sca_w_profile_1', 'csp_dtr_sca_w_profile_2', 'csp_dtr_sca_w_profile_3', 'csp_dtr_sca_w_profile_4', 'arr_collectors_in_loop', 'csp_dtr_sca_aperture_1', 'csp_dtr_sca_aperture_2', 'csp_dtr_sca_aperture_3', 'csp_dtr_sca_aperture_4', 'csp_dtr_sca_tracking_error_1', 'csp_dtr_sca_tracking_error_2', 'csp_dtr_sca_tracking_error_3', 'csp_dtr_sca_tracking_error_4', 'csp_dtr_sca_geometry_effects_1', 'csp_dtr_sca_geometry_effects_2', 'csp_dtr_sca_geometry_effects_3', 'csp_dtr_sca_geometry_effects_4', 'csp_dtr_sca_clean_reflectivity_1', 'csp_dtr_sca_clean_reflectivity_2', 'csp_dtr_sca_clean_reflectivity_3', 'csp_dtr_sca_clean_reflectivity_4', 'csp_dtr_sca_mirror_dirt_1', 'csp_dtr_sca_mirror_dirt_2', 'csp_dtr_sca_mirror_dirt_3', 'csp_dtr_sca_mirror_dirt_4', 'csp_dtr_sca_general_error_1', 'csp_dtr_sca_general_error_2', 'csp_dtr_sca_general_error_3', 'csp_dtr_sca_general_error_4', 'csp_dtr_sca_ave_focal_len_1', 'csp_dtr_sca_ave_focal_len_2', 'csp_dtr_sca_ave_focal_len_3', 'csp_dtr_sca_ave_focal_len_4', 'csp_dtr_sca_length_1', 'csp_dtr_sca_length_2', 'csp_dtr_sca_length_3', 'csp_dtr_sca_length_4', 'csp_dtr_sca_ap_length_1', 'csp_dtr_sca_ap_length_2', 'csp_dtr_sca_ap_length_3', 'csp_dtr_sca_ap_length_4', 'csp_dtr_sca_ncol_per_sca_1', 'csp_dtr_sca_ncol_per_sca_2', 'csp_dtr_sca_ncol_per_sca_3', 'csp_dtr_sca_ncol_per_sca_4', 'csp_dtr_sca_piping_dist_1', 'csp_dtr_sca_piping_dist_2', 'csp_dtr_sca_piping_dist_3', 'csp_dtr_sca_piping_dist_4'): ('W_aperture', 'max_collector_width', 'A_aperture', 'TrackingError', 'GeomEffects', 'Rho_mirror_clean', 'Dirt_mirror', 'Error', 'Ave_Focal_Length', 'L_SCA', 'L_aperture', 'ColperSCA', 'Distance_SCA'), (): ('nColt'), ('SCAInfoArray', 'nColt'): ('collectors_in_field', 'arr_collectors_in_loop') }, 'Tower Capital Costs': { ('csp.pt.cost.heliostats_m2', 'csp.pt.cost.site_improvements_per_m2', 'csp.pt.cost.heliostats_per_m2', 'csp.pt.cost.fixed_sf', 'ui_tower_height', 'ui_receiver_height', 'ui_heliostat_height', 'csp.pt.cost.tower.fixed', 'csp.pt.cost.tower.scaling_exp', 'csp.pt.cost.receiver.area', 'csp.pt.cost.receiver.ref_cost', 'csp.pt.cost.receiver.ref_area', 'csp.pt.cost.receiver.scaling_exp', 'csp.pt.cost.storage_mwht', 'csp.pt.cost.storage_per_kwht', 'csp.pt.cost.power_block_mwe', 'csp.pt.cost.power_block_per_kwe', 'csp.pt.cost.bop_per_kwe', 'csp.pt.cost.fossil_per_kwe', 'csp.pt.cost.contingency_percent', 'csp.pt.cost.total_land_area', 'csp.pt.cost.nameplate', 'csp.pt.cost.epc.per_acre', 'csp.pt.cost.epc.percent', 'csp.pt.cost.epc.per_watt', 'csp.pt.cost.epc.fixed', 'csp.pt.cost.plm.per_acre', 'csp.pt.cost.plm.percent', 'csp.pt.cost.plm.per_watt', 'csp.pt.cost.plm.fixed', 'csp.pt.cost.sales_tax.percent', 'csp.pt.cost.sales_tax.value'): ('csp.pt.cost.site_improvements', 'csp.pt.cost.heliostats', 'csp.pt.cost.tower', 'csp.pt.cost.receiver', 'csp.pt.cost.storage', 'csp.pt.cost.power_block', 'csp.pt.cost.bop', 'csp.pt.cost.fossil', 'ui_direct_subtotal', 'csp.pt.cost.contingency', 'total_direct_cost', 'csp.pt.cost.epc.total', 'csp.pt.cost.plm.total', 'csp.pt.cost.sales_tax.total', 'total_indirect_cost', 'total_installed_cost', 'csp.pt.cost.installed_per_capacity'), (): ('system_use_lifetime_output'), ('sales_tax_rate'): ('csp.pt.cost.sales_tax.value'), ('P_ref', 'demand_var'): ('csp.pt.cost.power_block_mwe'), ('P_ref', 'design_eff', 'tshours'): ('csp.pt.cost.storage_mwht'), ('receiver_type', 'H_rec', 'D_rec', 'rec_d_spec', 'csp.pt.rec.cav_ap_height', 'd_rec'): ('csp.pt.cost.receiver.area'), ('helio_height'): ('ui_heliostat_height'), ('nameplate'): ('csp.pt.cost.nameplate'), ('receiver_type', 'H_rec', 'csp.pt.rec.cav_ap_height'): ('csp.pt.cost.rec_height'), ('H_rec'): ('ui_receiver_height'), (): ('system_use_recapitalization'), ('THT', 'h_tower'): ('ui_tower_height'), ('csp.pt.sf.total_land_area'): ('csp.pt.cost.total_land_area'), ('A_sf'): ('csp.pt.cost.site_improvements_m2'), ('A_sf'): ('csp.pt.cost.heliostats_m2') }, 'PBNS Power Block': { ('nameplate'): ('system_capacity'), ('csp.pbns.condenser_type'): ('CT'), ('csp.pbns.fossil_mode_st', 'csp.pbns.fossil_mode_lf'): ('fossil_mode'), ('demand_var', 'eta_ref'): ('q_pb_des'), ('demand_var', 'csp.pbns.gross_net_conv_factor'): ('nameplate') }, 'Tower Solar Field': { (): ('opt_flux_penalty'), (): ('opt_algorithm'), ('dni_des'): ('dni_des_calc'), ('csp.pt.cost.fossil_per_kwe'): ('fossil_spec_cost'), ('csp.pt.cost.sales_tax.percent'): ('sales_tax_frac'), ('csp.pt.cost.contingency_percent'): ('contingency_rate'), ('csp.pt.cost.storage_per_kwht'): ('tes_spec_cost'), ('csp.pt.cost.bop_per_kwe'): ('bop_spec_cost'), ('csp.pt.cost.heliostats_per_m2'): ('heliostat_spec_cost'), ('override_layout'): ('run_type'), ('csp.pt.cost.receiver.ref_cost'): ('rec_ref_cost'), ('helio_optical_error_mrad'): ('helio_optical_error'), ('helio_positions', 'c_atm_0', 'c_atm_1', 'c_atm_2', 'c_atm_3', 'THT'): ('c_atm_info'), ('csp.pt.cost.plm.per_acre'): ('land_spec_cost'), (): ('V_wind_10'), ('csp.pt.sf.fixed_land_area', 'land_area_base', 'csp.pt.sf.land_overhead_factor'): ('csp.pt.sf.total_land_area'), ('THT'): ('csp.pt.sf.tower_height'), ('A_sf'): ('helio_area_tot'), ('csp.pt.cost.site_improvements_per_m2'): ('site_spec_cost'), ('csp.pt.cost.receiver.ref_area'): ('rec_ref_area'), ('helio_width', 'helio_height', 'dens_mirror', 'n_hel'): ('A_sf'), ('csp.pt.cost.receiver.scaling_exp'): ('rec_cost_exp'), (): ('field_control'), ('csp.pt.cost.power_block_per_kwe'): ('plant_spec_cost'), ('csp.pt.cost.tower.scaling_exp'): ('tower_exp'), ('csp.pt.cost.fixed_sf'): ('cost_sf_fixed'), ('helio_optical_error_mrad'): ('error_equiv'), ('helio_positions'): ('n_hel'), ('land_max', 'THT'): ('land_max_calc'), ('H_rec'): ('rec_height'), ('override_opt'): ('is_optimize'), ('n_hel', 'csp.pt.sf.heliostat_area'): ('csp.pt.sf.total_reflective_area'), ('Q_rec_des'): ('q_design'), ('helio_height', 'helio_width', 'dens_mirror'): ('csp.pt.sf.heliostat_area'), ('land_min', 'THT'): ('land_min_calc'), ('csp.pt.cost.tower.fixed'): ('tower_fixed_cost') }, 'Generic CSP Solar Field': { ('csp.gss.sf.wspd_loss_f3', 'csp.gss.sf.wspd_loss_f2', 'csp.gss.sf.wspd_loss_f1', 'csp.gss.sf.wspd_loss_f0'): ('f_v_wind_loss_des'), ('csp.gss.sf.wspd_loss_f3', 'csp.gss.sf.wspd_loss_f2', 'csp.gss.sf.wspd_loss_f1', 'csp.gss.sf.wspd_loss_f0'): ('sfhlV_coefs'), ('csp.gss.sf.ambt_loss_f3', 'csp.gss.sf.ambt_loss_f2', 'csp.gss.sf.ambt_loss_f1', 'csp.gss.sf.ambt_loss_f0'): ('sfhlT_coefs'), ('qsf_des', 'csp.gss.sf.design_thermal_loss', 'csp.gss.sf.total_opt_eff', 'irr_des'): ('csp.gss.sf.field_area'), ('csp.gss.sf.irr_loss_f3', 'csp.gss.sf.irr_loss_f2', 'csp.gss.sf.irr_loss_f1', 'csp.gss.sf.irr_loss_f0'): ('f_dni_loss_des'), ('csp.gss.sf.ambt_loss_f3', 'csp.gss.sf.ambt_loss_f2', 'csp.gss.sf.ambt_loss_f1', 'csp.gss.sf.ambt_loss_f0'): ('f_t_amb_loss_des'), ('csp.gss.sf.irr_loss_f3', 'csp.gss.sf.irr_loss_f2', 'csp.gss.sf.irr_loss_f1', 'csp.gss.sf.irr_loss_f0'): ('sfhlQ_coefs'), ('csp.gss.sf.rad_type'): ('rad_type'), ('csp.gss.sf.rad_type'): ('track_mode'), ('f_sfhl_ref', 'qsf_des'): ('csp.gss.sf.design_thermal_loss'), ('OpticalTable', 'istableunsorted'): ('csp.gss.sf.peak_opt_eff'), ('csp.gss.sf.peak_opt_eff', 'eta_opt_soil', 'eta_opt_gen'): ('csp.gss.sf.total_opt_eff'), ('csp.gss.solf.fixed_land_area', 'csp.gss.solf.land_overhead_factor'): ('csp.gss.solf.total_land_area'), ('csp.gss.sf.field_area'): ('csp.gss.solf.fixed_land_area'), ('f_dni_loss_des', 'f_t_amb_loss_des', 'f_v_wind_loss_des'): ('f_loss_tot_des'), ('w_des', 'eta_des', 'solarm'): ('qsf_des') }, 'Battery Thermal': { ('solar_resource_file', 'spec_mode', 'energy_output_array', 'batt_thermal_choice', 'batt_room_temperature_single', 'batt_room_temperature_vector'): ('batt_room_temperature_celsius'), ('batt_volume'): ('batt_width'), ('batt_volume'): ('batt_length'), ('batt_computed_bank_capacity', 'batt_specific_energy_per_volume'): ('batt_volume'), ('batt_volume'): ('batt_height'), ('batt_computed_bank_capacity', 'batt_specific_energy_per_mass'): ('batt_mass') }, 'Empirical Trough Thermal Storage': { ('ui_tes_htf_type', 'ui_field_htf_type', 'ui_q_design', 'TurTesOutAdj', 'TurTesEffAdj', 'MaxGrOut'): ('PFSmax'), ('ui_q_design'): ('ui_tes_q_design'), ('TSHOURS', 'ui_q_design'): ('calc_max_energy'), ('ui_tes_htf_type', 'ui_field_htf_type', 'Solar_Field_Mult'): ('calc_heat_ex_duty'), ('ui_tes_htf_type', 'ui_field_htf_type', 'ui_q_design', 'Solar_Field_Mult', 'MaxGrOut', 'calc_heat_ex_duty'): ('PTSmax'), ('ui_tes_htf_type'): ('calc_htf_max_opt_temp'), ('ui_tes_htf_type'): ('calc_htf_min_opt_temp') }, 'Rankine Cycle and Hybrid Cooling': { ('hybrid_tou1', 'hybrid_tou2', 'hybrid_tou3', 'hybrid_tou4', 'hybrid_tou5', 'hybrid_tou6', 'hybrid_tou7', 'hybrid_tou8', 'hybrid_tou9'): ('F_wc'), ('combo_condenser_type'): ('CT'), ('pressure_mode'): ('tech_type') }, 'Direct Steam Tower Parasitics': { (): ('bop_array'), ('aux_par', 'aux_par_f', 'aux_par_0', 'aux_par_1', 'aux_par_2', 'demand_var'): ('csp.dst.calc.aux'), ('bop_par', 'bop_par_f', 'bop_par_0', 'bop_par_1', 'bop_par_2', 'demand_var'): ('csp.dst.calc.bop'), ('THT', 'piping_length_mult', 'piping_length_add'): ('Piping_length'), ('Piping_length', 'Piping_loss'): ('Piping_loss_tot'), (): ('aux_array') }, 'Financial Debt DSCR or Debt Fraction': { ('real_discount_rate', 'inflation_rate', 'debt_percent', 'federal_tax_rate', 'state_tax_rate', 'term_int_rate'): ('ui_wacc') }, 'Battery Dispatch Front of Meter': { ('batt_dispatch_choice', 'dispatch_factor1', 'dispatch_factor2', 'dispatch_factor3', 'dispatch_factor4', 'dispatch_factor5', 'dispatch_factor6', 'dispatch_factor7', 'dispatch_factor8', 'dispatch_factor9'): ('dispatch_tod_factors') }, 'Linear Fresnel Boiler Geometry': { ('csp.lf.geom1.var1.broken_glass', 'csp.lf.geom1.var2.broken_glass', 'csp.lf.geom1.var3.broken_glass', 'csp.lf.geom1.var4.broken_glass'): ('csp.lf.geom1.glazing_intact'), ('csp.lf.geom1.var1.gas_type', 'csp.lf.geom1.var2.gas_type', 'csp.lf.geom1.var3.gas_type', 'csp.lf.geom1.var4.gas_type'): ('csp.lf.geom1.annulus_gas'), ('csp.lf.geom1.hl_mode', 'csp.lf.geom1.var1.field_fraction', 'csp.lf.geom1.var1.bellows_shadowing', 'csp.lf.geom1.var1.hce_dirt', 'csp.lf.geom1.var2.field_fraction', 'csp.lf.geom1.var2.bellows_shadowing', 'csp.lf.geom1.var2.hce_dirt', 'csp.lf.geom1.var3.field_fraction', 'csp.lf.geom1.var3.bellows_shadowing', 'csp.lf.geom1.var3.hce_dirt', 'csp.lf.geom1.var4.field_fraction', 'csp.lf.geom1.var4.bellows_shadowing', 'csp.lf.geom1.var4.hce_dirt'): ('csp.lf.geom1.rec_optical_derate'), ('csp.lf.geom1.hl_mode', 'csp.lf.geom1.hlpolyt0', 'csp.lf.geom1.hlpolyt1', 'csp.lf.geom1.avg_field_temp_dt_design', 'csp.lf.geom1.hlpolyt2', 'csp.lf.geom1.hlpolyt3', 'csp.lf.geom1.hlpolyt4', 'csp.lf.geom1.var1.field_fraction', 'csp.lf.geom1.var1.rated_heat_loss', 'csp.lf.geom1.var2.field_fraction', 'csp.lf.geom1.var2.rated_heat_loss', 'csp.lf.geom1.var3.field_fraction', 'csp.lf.geom1.var3.rated_heat_loss', 'csp.lf.geom1.var4.field_fraction', 'csp.lf.geom1.var4.rated_heat_loss'): ('csp.lf.geom1.heat_loss_at_design'), ('csp.lf.geom1.heat_loss_at_design', 'I_bn_des', 'csp.lf.geom1.refl_aper_area', 'csp.lf.geom1.coll_length'): ('csp.lf.geom1.rec_thermal_derate'), ('T_cold_ref', 'T_hot', 'T_amb_des_sf'): ('csp.lf.geom1.avg_field_temp_dt_design'), ('csp.lf.geom1.track_error', 'csp.lf.geom1.geom_error', 'csp.lf.geom1.mirror_refl', 'csp.lf.geom1.soiling', 'csp.lf.geom1.general_error'): ('csp.lf.geom1.coll_opt_loss_norm_inc') }, 'Battery Model': { ('batt_type'): ('batt_chem') }, 'Physical Trough Receiver Header': { ('csp_dtr_hce_var1_bellows_shadowing_1', 'csp_dtr_hce_var2_bellows_shadowing_1', 'csp_dtr_hce_var3_bellows_shadowing_1', 'csp_dtr_hce_var4_bellows_shadowing_1', 'csp_dtr_hce_var1_bellows_shadowing_2', 'csp_dtr_hce_var2_bellows_shadowing_2', 'csp_dtr_hce_var3_bellows_shadowing_2', 'csp_dtr_hce_var4_bellows_shadowing_2', 'csp_dtr_hce_var1_bellows_shadowing_3', 'csp_dtr_hce_var2_bellows_shadowing_3', 'csp_dtr_hce_var3_bellows_shadowing_3', 'csp_dtr_hce_var4_bellows_shadowing_3', 'csp_dtr_hce_var1_bellows_shadowing_4', 'csp_dtr_hce_var2_bellows_shadowing_4', 'csp_dtr_hce_var3_bellows_shadowing_4', 'csp_dtr_hce_var4_bellows_shadowing_4'): ('Shadowing'), ('csp_dtr_hce_var1_gas_type_1', 'csp_dtr_hce_var2_gas_type_1', 'csp_dtr_hce_var3_gas_type_1', 'csp_dtr_hce_var4_gas_type_1', 'csp_dtr_hce_var1_gas_type_2', 'csp_dtr_hce_var2_gas_type_2', 'csp_dtr_hce_var3_gas_type_2', 'csp_dtr_hce_var4_gas_type_2', 'csp_dtr_hce_var1_gas_type_3', 'csp_dtr_hce_var2_gas_type_3', 'csp_dtr_hce_var3_gas_type_3', 'csp_dtr_hce_var4_gas_type_3', 'csp_dtr_hce_var1_gas_type_4', 'csp_dtr_hce_var2_gas_type_4', 'csp_dtr_hce_var3_gas_type_4', 'csp_dtr_hce_var4_gas_type_4'): ('AnnulusGas'), ('csp_dtr_hce_var1_annulus_pressure_1', 'csp_dtr_hce_var2_annulus_pressure_1', 'csp_dtr_hce_var3_annulus_pressure_1', 'csp_dtr_hce_var4_annulus_pressure_1', 'csp_dtr_hce_var1_annulus_pressure_2', 'csp_dtr_hce_var2_annulus_pressure_2', 'csp_dtr_hce_var3_annulus_pressure_2', 'csp_dtr_hce_var4_annulus_pressure_2', 'csp_dtr_hce_var1_annulus_pressure_3', 'csp_dtr_hce_var2_annulus_pressure_3', 'csp_dtr_hce_var3_annulus_pressure_3', 'csp_dtr_hce_var4_annulus_pressure_3', 'csp_dtr_hce_var1_annulus_pressure_4', 'csp_dtr_hce_var2_annulus_pressure_4', 'csp_dtr_hce_var3_annulus_pressure_4', 'csp_dtr_hce_var4_annulus_pressure_4'): ('P_a'), ('csp_dtr_hce_var1_env_emis_1', 'csp_dtr_hce_var2_env_emis_1', 'csp_dtr_hce_var3_env_emis_1', 'csp_dtr_hce_var4_env_emis_1', 'csp_dtr_hce_var1_env_emis_2', 'csp_dtr_hce_var2_env_emis_2', 'csp_dtr_hce_var3_env_emis_2', 'csp_dtr_hce_var4_env_emis_2', 'csp_dtr_hce_var1_env_emis_3', 'csp_dtr_hce_var2_env_emis_3', 'csp_dtr_hce_var3_env_emis_3', 'csp_dtr_hce_var4_env_emis_3', 'csp_dtr_hce_var1_env_emis_4', 'csp_dtr_hce_var2_env_emis_4', 'csp_dtr_hce_var3_env_emis_4', 'csp_dtr_hce_var4_env_emis_4'): ('EPSILON_4', 'EPSILON_5'), ('csp_dtr_hce_var1_env_trans_1', 'csp_dtr_hce_var2_env_trans_1', 'csp_dtr_hce_var3_env_trans_1', 'csp_dtr_hce_var4_env_trans_1', 'csp_dtr_hce_var1_env_trans_2', 'csp_dtr_hce_var2_env_trans_2', 'csp_dtr_hce_var3_env_trans_2', 'csp_dtr_hce_var4_env_trans_2', 'csp_dtr_hce_var1_env_trans_3', 'csp_dtr_hce_var2_env_trans_3', 'csp_dtr_hce_var3_env_trans_3', 'csp_dtr_hce_var4_env_trans_3', 'csp_dtr_hce_var1_env_trans_4', 'csp_dtr_hce_var2_env_trans_4', 'csp_dtr_hce_var3_env_trans_4', 'csp_dtr_hce_var4_env_trans_4'): ('Tau_envelope'), ('csp_dtr_hce_var1_abs_abs_1', 'csp_dtr_hce_var2_abs_abs_1', 'csp_dtr_hce_var3_abs_abs_1', 'csp_dtr_hce_var4_abs_abs_1', 'csp_dtr_hce_var1_abs_abs_2', 'csp_dtr_hce_var2_abs_abs_2', 'csp_dtr_hce_var3_abs_abs_2', 'csp_dtr_hce_var4_abs_abs_2', 'csp_dtr_hce_var1_abs_abs_3', 'csp_dtr_hce_var2_abs_abs_3', 'csp_dtr_hce_var3_abs_abs_3', 'csp_dtr_hce_var4_abs_abs_3', 'csp_dtr_hce_var1_abs_abs_4', 'csp_dtr_hce_var2_abs_abs_4', 'csp_dtr_hce_var3_abs_abs_4', 'csp_dtr_hce_var4_abs_abs_4'): ('alpha_abs'), ('csp_dtr_hce_var1_broken_glass_1', 'csp_dtr_hce_var2_broken_glass_1', 'csp_dtr_hce_var3_broken_glass_1', 'csp_dtr_hce_var4_broken_glass_1', 'csp_dtr_hce_var1_broken_glass_2', 'csp_dtr_hce_var2_broken_glass_2', 'csp_dtr_hce_var3_broken_glass_2', 'csp_dtr_hce_var4_broken_glass_2', 'csp_dtr_hce_var1_broken_glass_3', 'csp_dtr_hce_var2_broken_glass_3', 'csp_dtr_hce_var3_broken_glass_3', 'csp_dtr_hce_var4_broken_glass_3', 'csp_dtr_hce_var1_broken_glass_4', 'csp_dtr_hce_var2_broken_glass_4', 'csp_dtr_hce_var3_broken_glass_4', 'csp_dtr_hce_var4_broken_glass_4'): ('GlazingIntactIn'), ('csp_dtr_hce_var1_env_abs_1', 'csp_dtr_hce_var2_env_abs_1', 'csp_dtr_hce_var3_env_abs_1', 'csp_dtr_hce_var4_env_abs_1', 'csp_dtr_hce_var1_env_abs_2', 'csp_dtr_hce_var2_env_abs_2', 'csp_dtr_hce_var3_env_abs_2', 'csp_dtr_hce_var4_env_abs_2', 'csp_dtr_hce_var1_env_abs_3', 'csp_dtr_hce_var2_env_abs_3', 'csp_dtr_hce_var3_env_abs_3', 'csp_dtr_hce_var4_env_abs_3', 'csp_dtr_hce_var1_env_abs_4', 'csp_dtr_hce_var2_env_abs_4', 'csp_dtr_hce_var3_env_abs_4', 'csp_dtr_hce_var4_env_abs_4'): ('alpha_env'), ('csp_dtr_hce_var1_rated_heat_loss_1', 'csp_dtr_hce_var2_rated_heat_loss_1', 'csp_dtr_hce_var3_rated_heat_loss_1', 'csp_dtr_hce_var4_rated_heat_loss_1', 'csp_dtr_hce_var1_rated_heat_loss_2', 'csp_dtr_hce_var2_rated_heat_loss_2', 'csp_dtr_hce_var3_rated_heat_loss_2', 'csp_dtr_hce_var4_rated_heat_loss_2', 'csp_dtr_hce_var1_rated_heat_loss_3', 'csp_dtr_hce_var2_rated_heat_loss_3', 'csp_dtr_hce_var3_rated_heat_loss_3', 'csp_dtr_hce_var4_rated_heat_loss_3', 'csp_dtr_hce_var1_rated_heat_loss_4', 'csp_dtr_hce_var2_rated_heat_loss_4', 'csp_dtr_hce_var3_rated_heat_loss_4', 'csp_dtr_hce_var4_rated_heat_loss_4'): ('Design_loss'), ('csp_dtr_hce_var1_field_fraction_1', 'csp_dtr_hce_var2_field_fraction_1', 'csp_dtr_hce_var3_field_fraction_1', 'csp_dtr_hce_var4_field_fraction_1', 'csp_dtr_hce_var1_field_fraction_2', 'csp_dtr_hce_var2_field_fraction_2', 'csp_dtr_hce_var3_field_fraction_2', 'csp_dtr_hce_var4_field_fraction_2', 'csp_dtr_hce_var1_field_fraction_3', 'csp_dtr_hce_var2_field_fraction_3', 'csp_dtr_hce_var3_field_fraction_3', 'csp_dtr_hce_var4_field_fraction_3', 'csp_dtr_hce_var1_field_fraction_4', 'csp_dtr_hce_var2_field_fraction_4', 'csp_dtr_hce_var3_field_fraction_4', 'csp_dtr_hce_var4_field_fraction_4'): ('HCE_FieldFrac'), ('csp_dtr_hce_diam_envelope_inner_1', 'csp_dtr_hce_diam_envelope_inner_2', 'csp_dtr_hce_diam_envelope_inner_3', 'csp_dtr_hce_diam_envelope_inner_4'): ('D_4'), ('csp_dtr_hce_absorber_material_1', 'csp_dtr_hce_absorber_material_2', 'csp_dtr_hce_absorber_material_3', 'csp_dtr_hce_absorber_material_4'): ('AbsorberMaterial'), ('csp_dtr_hce_flow_type_1', 'csp_dtr_hce_flow_type_2', 'csp_dtr_hce_flow_type_3', 'csp_dtr_hce_flow_type_4'): ('Flow_type'), ('csp_dtr_hce_var1_hce_dirt_1', 'csp_dtr_hce_var2_hce_dirt_1', 'csp_dtr_hce_var3_hce_dirt_1', 'csp_dtr_hce_var4_hce_dirt_1', 'csp_dtr_hce_var1_hce_dirt_2', 'csp_dtr_hce_var2_hce_dirt_2', 'csp_dtr_hce_var3_hce_dirt_2', 'csp_dtr_hce_var4_hce_dirt_2', 'csp_dtr_hce_var1_hce_dirt_3', 'csp_dtr_hce_var2_hce_dirt_3', 'csp_dtr_hce_var3_hce_dirt_3', 'csp_dtr_hce_var4_hce_dirt_3', 'csp_dtr_hce_var1_hce_dirt_4', 'csp_dtr_hce_var2_hce_dirt_4', 'csp_dtr_hce_var3_hce_dirt_4', 'csp_dtr_hce_var4_hce_dirt_4'): ('Dirt_HCE'), ('csp_dtr_hce_inner_roughness_1', 'csp_dtr_hce_inner_roughness_2', 'csp_dtr_hce_inner_roughness_3', 'csp_dtr_hce_inner_roughness_4'): ('Rough'), ('csp_dtr_hce_diam_absorber_plug_1', 'csp_dtr_hce_diam_absorber_plug_2', 'csp_dtr_hce_diam_absorber_plug_3', 'csp_dtr_hce_diam_absorber_plug_4'): ('D_p'), ('csp_dtr_hce_diam_envelope_outer_1', 'csp_dtr_hce_diam_envelope_outer_2', 'csp_dtr_hce_diam_envelope_outer_3', 'csp_dtr_hce_diam_envelope_outer_4'): ('D_5'), ('csp_dtr_hce_diam_absorber_outer_1', 'csp_dtr_hce_diam_absorber_outer_2', 'csp_dtr_hce_diam_absorber_outer_3', 'csp_dtr_hce_diam_absorber_outer_4'): ('D_3'), ('csp_dtr_hce_diam_absorber_inner_1', 'csp_dtr_hce_diam_absorber_inner_2', 'csp_dtr_hce_diam_absorber_inner_3', 'csp_dtr_hce_diam_absorber_inner_4'): ('D_2'), ('SCAInfoArray', 'nColt'): ('receivers_in_field') }, 'PV Shading': { ('subarray4_gcr'): ('subarray4_gcr_ref'), ('subarray1_gcr'): ('subarray1_gcr_ref'), ('subarray4_enable', 'subarray4_nstrings', 'subarray4_modules_per_string'): ('subarray4_ref_nmodules'), ('subarray1_nstrings', 'subarray1_modules_per_string'): ('subarray1_ref_nmodules'), ('subarray4_ref_nmodules', 'subarray4_nmodx', 'subarray4_nmody'): ('ui_subarray4_nrows'), ('subarray3_ref_nmodules', 'subarray3_nmodx', 'subarray3_nmody'): ('ui_subarray3_nrows'), ('subarray2_ref_nmodules', 'subarray2_nmodx', 'subarray2_nmody'): ('ui_subarray2_nrows'), ('module_area', 'module_width', 'module_length', 'subarray4_nmody', 'subarray4_mod_orient', 'subarray4_gcr_ref'): ('ui_subarray4_row_spacing'), ('subarray2_gcr'): ('subarray2_gcr_ref'), ('module_area', 'module_width', 'module_length', 'subarray3_nmody', 'subarray3_mod_orient', 'subarray3_gcr_ref'): ('ui_subarray3_row_spacing'), ('module_area', 'module_width', 'module_length', 'subarray1_nmody', 'subarray1_mod_orient', 'subarray1_gcr_ref'): ('ui_subarray1_row_spacing'), ('module_area', 'module_width', 'module_length', 'subarray2_nmody', 'subarray2_mod_orient', 'subarray2_gcr_ref'): ('ui_subarray2_row_spacing'), ('subarray1_ref_nmodules', 'subarray1_nmodx', 'subarray1_nmody'): ('ui_subarray1_nrows'), ('subarray3_gcr'): ('subarray3_gcr_ref'), ('subarray3_mod_orient', 'subarray3_nmody', 'module_length', 'module_width'): ('ui_subarray3_length_side'), ('subarray4_mod_orient', 'subarray4_nmody', 'module_length', 'module_width'): ('ui_subarray4_length_side'), ('module_model', 'spe_area', 'cec_area', '6par_area', 'snl_area', 'sd11par_area'): ('module_area'), ('subarray2_mod_orient', 'subarray2_nmody', 'module_length', 'module_width'): ('ui_subarray2_length_side'), ('subarray1_mod_orient', 'subarray1_nmody', 'module_length', 'module_width'): ('ui_subarray1_length_side'), ('subarray3_enable', 'subarray3_nstrings', 'subarray3_modules_per_string'): ('subarray3_ref_nmodules'), ('subarray2_enable', 'subarray2_nstrings', 'subarray2_modules_per_string'): ('subarray2_ref_nmodules'), ('module_area', 'module_aspect_ratio'): ('module_length'), ('module_area', 'module_aspect_ratio'): ('module_width') }, 'IEC61853 Single Diode Model': { ('iec61853_test_data'): ('sd11par_Pmp0', 'sd11par_Vmp0', 'sd11par_Isc0', 'sd11par_Voc0', 'sd11par_Imp0'), ('sd11par_Pmp0', 'sd11par_area'): ('sd11par_eff') }, 'Wind Turbine Design': { ('wind.turbine.radio_list_or_design', 'wind_turbine_powercurve_windspeeds_from_lib', 'wind_turbine_powercurve_powerout_from_lib', 'wind_turbine_kw_rating_from_lib', 'wind_turbine_kw_rating_input', 'wind_turbine_rotor_diameter_input', 'wind_turbine_hub_ht', 'wind.turbine.elevation', 'wind_resource_model_choice', 'wind_turbine_max_cp', 'wind.turbine.max_tip_speed', 'wind.turbine.max_tspeed_ratio', 'wind.turbine.region2nhalf_slope', 'wind_turbine_cutin', 'wind_turbine_cut_out', 'wind.turbine.drive_train'): ('wind_turbine_powercurve_windspeeds', 'wind_turbine_powercurve_powerout', 'wind_turbine_rated_wind_speed', 'wind_turbine_powercurve_err_msg', 'wind_turbine_powercurve_hub_efficiency'), ('wind.turbine.radio_list_or_design', 'wind_turbine_kw_rating_from_lib', 'wind_turbine_kw_rating_input'): ('wind_turbine_kw_rating'), ('wind.turbine.radio_list_or_design', 'wind_turbine_rotor_diameter_from_lib', 'wind_turbine_rotor_diameter_input'): ('wind_turbine_rotor_diameter') }, 'Inverter CEC Database': { ('inv_snl_vdco', 'inv_snl_pdco', 'inv_snl_pso', 'inv_snl_paco', 'inv_snl_c0', 'inv_snl_c1', 'inv_snl_c2', 'inv_snl_c3'): ('inv_snl_eff_cec', 'inv_snl_eff_euro') }, 'Electric Load': { (): ('ui_annual_load'), ('load_model', 'escal_other', 'escal_belpe'): ('load_escalation') }, 'Financial Debt Min DSCR': { ('construction_financing_cost'): ('ui_construction_financing_cost'), ('real_discount_rate', 'inflation_rate', 'debt_fraction', 'federal_tax_rate', 'state_tax_rate', 'loan_rate'): ('ui_wacc'), ('ui_net_capital_cost', 'debt_fraction', 'construction_financing_cost'): ('ui_loan_amount'), ('total_installed_cost', 'ibi_fed_amount', 'ibi_sta_amount', 'ibi_uti_amount', 'ibi_oth_amount', 'ibi_fed_percent', 'ibi_fed_percent_maxvalue', 'ibi_sta_percent', 'ibi_sta_percent_maxvalue', 'ibi_uti_percent', 'ibi_uti_percent_maxvalue', 'ibi_oth_percent', 'ibi_oth_percent_maxvalue', 'system_capacity', 'cbi_fed_amount', 'cbi_fed_maxvalue', 'cbi_sta_amount', 'cbi_sta_maxvalue', 'cbi_uti_amount', 'cbi_uti_maxvalue', 'cbi_oth_amount', 'cbi_oth_maxvalue'): ('ui_net_capital_cost') }, 'Solar Water Heating Costs': { ('epc_total', 'plm_total', 'sales_tax_total'): ('total_indirect'), ('sales_tax_rate'): ('sales_tax_value'), ('plm_percent', 'total_direct'): ('plm_nonfixed'), ('total_installed_cost', 'system_capacity'): ('installed_per_capacity'), ('sales_tax_value', 'total_direct', 'sales_tax_percent'): ('sales_tax_total'), ('contingency_percent', 'collector', 'storage', 'bos', 'installation'): ('contingency'), ('ncoll'): ('num_collectors'), (): ('system_use_lifetime_output'), ('contingency', 'bos', 'installation', 'storage', 'collector'): ('total_direct'), ('collector_cost_units', 'total_area', 'system_capacity', 'num_collectors', 'per_collector'): ('collector'), ('epc_percent', 'total_direct'): ('epc_nonfixed'), (): ('system_use_recapitalization'), ('storage_cost_units', 'V_tank', 'per_storage'): ('storage'), ('epc_nonfixed', 'epc_fixed'): ('epc_total'), ('total_direct', 'total_indirect'): ('total_installed_cost'), ('plm_nonfixed', 'plm_fixed'): ('plm_total') }, 'MSPT System Control': { ('disp_wlim_max'): ('wlim_series'), ('disp_wlim_maxspec', 'adjust'): ('disp_wlim_max'), ('is_dispatch'): ('is_wlim_series'), ('aux_par', 'aux_par_f', 'aux_par_0', 'aux_par_1', 'aux_par_2', 'P_ref'): ('csp.pt.par.calc.aux'), ('bop_par', 'bop_par_f', 'bop_par_0', 'bop_par_1', 'bop_par_2', 'P_ref'): ('csp.pt.par.calc.bop') }, 'Molten Salt Linear Fresnel Parasitics': { ('csp.mslf.control.bop_array_mult', 'csp.mslf.control.bop_array_pf', 'csp.mslf.control.bop_array_c0', 'csp.mslf.control.bop_array_c1', 'csp.mslf.control.bop_array_c2'): ('bop_array'), ('csp.mslf.control.bop_array_mult', 'csp.mslf.control.bop_array_pf', 'csp.mslf.control.bop_array_c0', 'csp.mslf.control.bop_array_c1', 'csp.mslf.control.bop_array_c2', 'P_ref'): ('csp.mslf.par.calc.bop'), ('csp.mslf.control.aux_array_mult', 'csp.mslf.control.aux_array_pf', 'csp.mslf.control.aux_array_c0', 'csp.mslf.control.aux_array_c1', 'csp.mslf.control.aux_array_c2', 'P_ref'): ('csp.mslf.par.calc.aux'), ('csp.mslf.control.aux_array_mult', 'csp.mslf.control.aux_array_pf', 'csp.mslf.control.aux_array_c0', 'csp.mslf.control.aux_array_c1', 'csp.mslf.control.aux_array_c2'): ('aux_array'), ('nMod', 'nLoops', 'SCA_drives_elec'): ('csp.mslf.par.calc.tracking'), ('P_ref', 'pb_fixed_par'): ('csp.mslf.par.calc.frac_gross') }, 'Inverter Part Load Curve': { ('inv_pd_data'): ('inv_pd_partload', 'inv_pd_efficiency'), ('inv_pd_paco', 'inv_pd_eff'): ('inv_pd_pdco'), ('inv_pd_eff_type', 'inv_pd_eff_cec', 'inv_pd_eff_euro'): ('inv_pd_eff') }, 'CSP Dispatch Control': { ('ui_disp_1_fossil', 'ui_disp_2_fossil', 'ui_disp_3_fossil', 'ui_disp_4_fossil', 'ui_disp_5_fossil', 'ui_disp_6_fossil', 'ui_disp_7_fossil', 'ui_disp_8_fossil', 'ui_disp_9_fossil', 'ui_disp_1_nosolar', 'ui_disp_2_nosolar', 'ui_disp_3_nosolar', 'ui_disp_4_nosolar', 'ui_disp_5_nosolar', 'ui_disp_6_nosolar', 'ui_disp_7_nosolar', 'ui_disp_8_nosolar', 'ui_disp_9_nosolar', 'ui_disp_1_solar', 'ui_disp_2_solar', 'ui_disp_3_solar', 'ui_disp_4_solar', 'ui_disp_5_solar', 'ui_disp_6_solar', 'ui_disp_7_solar', 'ui_disp_8_solar', 'ui_disp_9_solar', 'ui_disp_1_turbout', 'ui_disp_2_turbout', 'ui_disp_3_turbout', 'ui_disp_4_turbout', 'ui_disp_5_turbout', 'ui_disp_6_turbout', 'ui_disp_7_turbout', 'ui_disp_8_turbout', 'ui_disp_9_turbout'): ('FossilFill', 'TSLogic', 'NUMTOU', 'ffrac', 'tslogic_a', 'tslogic_b', 'tslogic_c', 'fdisp', 'diswos', 'disws', 'qdisp') }, 'HCPV Array': { ('array_num_inverters', 'inv_snl_paco'): ('hcpv.array.ac_capacity'), (): ('hcpv.array.average_soiling'), ('array_modules_per_tracker', 'array_num_trackers', 'hcpv.module.power'): ('hcpv.array.nameplate'), ('hcpv.array.nameplate', 'inv_snl_pdco'): ('array_num_inverters'), ('array_tracker_power_fraction', 'hcpv.array.single_tracker_nameplate'): ('hcpv.array.tracker_power'), ('array_modules_per_tracker', 'hcpv.module.power'): ('hcpv.array.single_tracker_nameplate'), ('hcpv.module.est_eff', 'array_tracking_error', 'array_dc_wiring_loss', 'hcpv.array.average_soiling', 'array_dc_mismatch_loss', 'array_diode_conn_loss', 'array_ac_wiring_loss', 'inv_snl_paco', 'inv_snl_pdco'): ('hcpv.array.overall_est_eff'), ('hcpv.array.nameplate'): ('system_capacity'), ('hcpv.module.area', 'array_modules_per_tracker', 'array_num_trackers', 'hcpv.array.packing_factor'): ('hcpv.array.total_land_area') }, 'Direct Steam Tower Receiver': { ('csp.dst.num_2panelgroups'): ('n_flux_x'), (): ('tower_technology'), ('eta_ref'): ('design_eff'), ('T_sh_out_des'): ('T_hot'), (): ('T_cold_ref'), ('q_rec_des'): ('Q_rec_des'), ('T_sh_out_des'): ('T_hot_ref'), ('h_tower'): ('THT'), ('demand_var'): ('P_ref'), ('P_rh_ref'): ('P_hp_out'), ('P_boil_des'): ('P_b_in_init'), ('h_boiler', 'h_sh', 'h_rh'): ('H_rec'), ('P_rh_ref'): ('P_hp_out_des'), (): ('T_hp_out'), ('csp.dst.flow_pattern'): ('flowtype'), ('P_boil_des'): ('P_hp_in_des'), ('demand_var'): ('Design_power'), ('cycle_max_fraction'): ('cycle_max_frac'), ('t_sby'): ('t_standby_ini'), ('q_sby_frac'): ('f_pb_sb'), ('rh_frac_ref'): ('f_mdotrh_des'), ('cycle_cutoff_frac'): ('f_pb_cutoff'), ('P_rh_ref'): ('P_cond_init'), ('rh_frac_ref'): ('f_mdot_rh_init'), ('demand_var', 'eta_ref'): ('q_aux_max'), ('LHV_eff'): ('lhv_eff'), (): ('T_fw_init'), ('sh_q_loss_flux', 'csp.dst.max_sh_flux'): ('csp.dst.eff_sh_ref'), ('b_q_loss_flux', 'csp.dst.max_b_flux'): ('csp.dst.eff_b_ref'), ('T_rh_out_des'): ('T_rh_target'), (): ('rec_htf'), ('demand_var', 'eta_ref', 'csp.dst.solar_multiple'): ('q_rec_des'), ('csp.dst.mat_rh'): ('mat_rh'), ('demand_var'): ('p_cycle_design'), ('rh_q_loss_flux', 'csp.dst.max_rh_flux'): ('csp.dst.eff_rh_ref'), ('csp.dst.num_2panelgroups'): ('n_panels'), ('CT'): ('ct'), ('d_rec', 'H_rec'): ('rec_aspect'), ('csp.dst.mat_boiler'): ('mat_boiler'), ('demand_var', 'eta_ref'): ('q_pb_design'), ('csp.dst.mat_sh'): ('mat_sh') }, 'LF DSG Boiler Header': { (): ('sh_OpticalTable'), ('csp.lf.geom1.solpos_collinc_table'): ('b_OpticalTable'), (): ('sh_eps_HCE4'), (): ('sh_eps_HCE3'), (): ('sh_eps_HCE2'), (): ('sh_eps_HCE1'), ('csp.lf.geom1.var4.abs_emis'): ('b_eps_HCE4'), ('csp.lf.geom1.glazing_intact'): ('GlazingIntactIn'), ('csp.lf.geom1.var1.abs_emis'): ('b_eps_HCE1'), ('csp.lf.geom1.var1.annulus_pressure', 'csp.lf.geom1.var2.annulus_pressure', 'csp.lf.geom1.var3.annulus_pressure', 'csp.lf.geom1.var4.annulus_pressure'): ('P_a'), ('csp.lf.geom1.annulus_gas'): ('AnnulusGas'), ('csp.lf.geom1.var1.env_trans', 'csp.lf.geom1.var2.env_trans', 'csp.lf.geom1.var3.env_trans', 'csp.lf.geom1.var4.env_trans'): ('Tau_envelope'), ('csp.lf.geom1.var3.abs_emis'): ('b_eps_HCE3'), ('csp.lf.geom1.iamt0', 'csp.lf.geom1.iamt1', 'csp.lf.geom1.iamt2', 'csp.lf.geom1.iamt3', 'csp.lf.geom1.iamt4'): ('IAM_T'), ('csp.lf.geom1.var1.env_emis', 'csp.lf.geom1.var2.env_emis', 'csp.lf.geom1.var3.env_emis', 'csp.lf.geom1.var4.env_emis'): ('EPSILON_4'), ('csp.lf.geom1.var1.env_abs', 'csp.lf.geom1.var2.env_abs', 'csp.lf.geom1.var3.env_abs', 'csp.lf.geom1.var4.env_abs'): ('alpha_env'), ('csp.lf.geom1.var2.abs_emis'): ('b_eps_HCE2'), ('csp.lf.geom1.var1.hce_dirt', 'csp.lf.geom1.var2.hce_dirt', 'csp.lf.geom1.var3.hce_dirt', 'csp.lf.geom1.var4.hce_dirt'): ('Dirt_HCE'), ('csp.lf.geom1.iaml0', 'csp.lf.geom1.iaml1', 'csp.lf.geom1.iaml2', 'csp.lf.geom1.iaml3', 'csp.lf.geom1.iaml4'): ('IAM_L'), ('csp.lf.geom1.hlpolyw0', 'csp.lf.geom1.hlpolyw1', 'csp.lf.geom1.hlpolyw2', 'csp.lf.geom1.hlpolyw3', 'csp.lf.geom1.hlpolyw4'): ('HL_W'), ('csp.lf.geom1.var1.abs_abs', 'csp.lf.geom1.var2.abs_abs', 'csp.lf.geom1.var3.abs_abs', 'csp.lf.geom1.var4.abs_abs'): ('alpha_abs'), ('csp.lf.geom1.var1.bellows_shadowing', 'csp.lf.geom1.var2.bellows_shadowing', 'csp.lf.geom1.var3.bellows_shadowing', 'csp.lf.geom1.var4.bellows_shadowing'): ('Shadowing'), ('csp.lf.geom1.hlpolyt0', 'csp.lf.geom1.hlpolyt1', 'csp.lf.geom1.hlpolyt2', 'csp.lf.geom1.hlpolyt3', 'csp.lf.geom1.hlpolyt4'): ('HL_dT'), ('csp.lf.geom1.var1.rated_heat_loss', 'csp.lf.geom1.var2.rated_heat_loss', 'csp.lf.geom1.var3.rated_heat_loss', 'csp.lf.geom1.var4.rated_heat_loss'): ('Design_loss'), ('csp.lf.geom1.var1.field_fraction', 'csp.lf.geom1.var2.field_fraction', 'csp.lf.geom1.var3.field_fraction', 'csp.lf.geom1.var4.field_fraction'): ('HCE_FieldFrac'), ('csp.lf.geom1.refl_aper_area', 'csp.lf.geom1.coll_length', 'csp.lf.geom1.opt_mode', 'csp.lf.geom1.track_error', 'csp.lf.geom1.geom_error', 'csp.lf.geom1.mirror_refl', 'csp.lf.geom1.soiling', 'csp.lf.geom1.general_error', 'csp.lf.geom1.hl_mode', 'csp.lf.geom1.diam_absorber_inner', 'csp.lf.geom1.diam_absorber_outer', 'csp.lf.geom1.diam_envelope_inner', 'csp.lf.geom1.diam_envelope_outer', 'csp.lf.geom1.diam_absorber_plug', 'csp.lf.geom1.inner_roughness', 'csp.lf.geom1.flow_type', 'csp.lf.geom1.absorber_material'): ('A_aperture', 'L_col', 'OptCharType', 'TrackingError', 'GeomEffects', 'rho_mirror_clean', 'dirt_mirror', 'error', 'HLCharType', 'D_2', 'D_3', 'D_4', 'D_5', 'D_p', 'Rough', 'Flow_type', 'AbsorberMaterial') }, 'MSPT Receiver': { ('T_htf_hot_des'): ('REC_COPY_T_htf_hot_des'), ('Q_rec_des'): ('REC_COPY_Q_rec_des'), ('N_panels'): ('n_flux_x'), ('piping_length', 'piping_loss'): ('piping_loss_tot'), ('h_tower', 'piping_length_mult', 'piping_length_const'): ('piping_length'), (): ('receiver_type'), (): ('tower_technology'), ('solarm'): ('REC_COPY_solarm'), ('D_rec', 'rec_height'): ('rec_aspect'), ('rec_d_spec', 'csp.pt.rec.cav_ap_hw_ratio'): ('csp.pt.rec.cav_ap_height'), ('field_fl_props'): ('user_fluid'), ('csp.pt.rec.htf_type', 'csp.pt.rec.htf_t_avg', 'field_fl_props'): ('csp.pt.rec.htf_c_avg'), ('T_htf_cold_des', 'T_htf_hot_des'): ('csp.pt.rec.htf_t_avg'), (): ('csp.pt.rec.cav_panel_height'), ('T_htf_cold_des'): ('REC_COPY_T_htf_cold_des'), ('csp.pt.rec.max_oper_frac', 'Q_rec_des', 'csp.pt.rec.htf_c_avg', 'T_htf_hot_des', 'T_htf_cold_des'): ('csp.pt.rec.max_flow_to_rec'), (): ('csp.pt.rec.cav_lip_height'), ('csp.pt.rec.htf_type'): ('rec_htf'), ('csp.pt.rec.flow_pattern'): ('Flow_type'), ('csp.pt.rec.material_type'): ('mat_tube') }, 'MSLF Power Cycle Common': { ('PB_COPY_q_pb_design', 'PB_COPY_htf_cp_avg', 'PB_COPY_T_htf_hot_des', 'PB_COPY_T_htf_cold_des'): ('PB_m_dot_htf_cycle_des'), ('field_htf_cp_avg'): ('PB_COPY_htf_cp_avg'), ('T_htf_hot_ref'): ('PB_COPY_T_htf_hot_des'), ('eta_lhv'): ('lhv_eff'), (): ('pb_tech_type'), (): ('m_dot_in'), ('T_loop_in_des'): ('T_htf_cold_ref'), ('store_fluid', 'Fluid'): ('is_hx'), (): ('hx_config'), ('P_ref'): ('pb_rated_cap'), ('nameplate'): ('system_capacity'), ('T_htf_cold_ref'): ('PB_COPY_T_htf_cold_des'), ('T_loop_out'): ('T_htf_hot_ref'), ('P_ref', 'csp.mslf.cycle.gr_to_net'): ('nameplate'), ('P_ref', 'csp.mslf.cycle.gr_to_net'): ('q_design'), ('P_ref', 'eta_ref'): ('PB_COPY_q_pb_design'), ('csp.mslf.control.fossil_mode'): ('fossil_mode') }, 'Molten Salt Linear Fresnel Collector and Receiver': { ('P_ref'): ('demand_var'), ('P_ref'): ('W_pb_design'), (): ('T_cold_in'), (): ('defocus'), (): ('azimuth'), (): ('SolarAz'), (): ('T_dp'), (): ('P_amb'), (): ('V_wind'), (): ('track_mode'), (): ('T_db'), ('csp.mslf.sf.AnnulusGas1', 'csp.mslf.sf.AnnulusGas2', 'csp.mslf.sf.AnnulusGas3', 'csp.mslf.sf.AnnulusGas4'): ('AnnulusGas'), ('csp.mslf.sf.Flow_type'): ('Flow_type'), ('csp.mslf.sf.Rough'): ('Rough'), ('csp.mslf.sf.D_plug'): ('D_plug'), ('csp.mslf.sf.D_glass_out'): ('D_glass_out'), ('csp.mslf.sf.D_glass_in'): ('D_glass_in'), ('csp.mslf.sf.IAM_T_coefs0', 'csp.mslf.sf.IAM_T_coefs1', 'csp.mslf.sf.IAM_T_coefs2', 'csp.mslf.sf.IAM_T_coefs3', 'csp.mslf.sf.IAM_T_coefs4'): ('IAM_T_coefs'), ('csp.mslf.sf.HL_w_coefs0', 'csp.mslf.sf.HL_w_coefs1', 'csp.mslf.sf.HL_w_coefs2', 'csp.mslf.sf.HL_w_coefs3', 'csp.mslf.sf.HL_w_coefs4'): ('HL_w_coefs'), ('csp.mslf.sf.P_a1', 'csp.mslf.sf.P_a2', 'csp.mslf.sf.P_a3', 'csp.mslf.sf.P_a4'): ('P_a'), ('TrackingError', 'GeomEffects', 'reflectivity', 'Dirt_mirror', 'Error'): ('opt_normal'), ('csp.mslf.sf.DP_coefs0', 'csp.mslf.sf.DP_coefs1', 'csp.mslf.sf.DP_coefs2', 'csp.mslf.sf.DP_coefs3'): ('DP_coefs'), (): ('tilt'), ('csp.mslf.sf.Shadowing1', 'csp.mslf.sf.Shadowing2', 'csp.mslf.sf.Shadowing3', 'csp.mslf.sf.Shadowing4'): ('Shadowing'), ('csp.mslf.sf.dirt_env1', 'csp.mslf.sf.dirt_env2', 'csp.mslf.sf.dirt_env3', 'csp.mslf.sf.dirt_env4'): ('dirt_env'), ('sf_q_design'): ('q_pb_design'), ('csp.mslf.sf.HCE_FieldFrac1', 'csp.mslf.sf.HCE_FieldFrac2', 'csp.mslf.sf.HCE_FieldFrac3', 'csp.mslf.sf.HCE_FieldFrac4'): ('HCE_FieldFrac'), ('csp.mslf.sf.epsilon_glass1', 'csp.mslf.sf.epsilon_glass2', 'csp.mslf.sf.epsilon_glass3', 'csp.mslf.sf.epsilon_glass4'): ('epsilon_glass'), ('csp.mslf.sf.D_abs_in'): ('D_abs_in'), ('csp.mslf.sf.GlazingIntactIn1', 'csp.mslf.sf.GlazingIntactIn2', 'csp.mslf.sf.GlazingIntactIn3', 'csp.mslf.sf.GlazingIntactIn4'): ('GlazingIntactIn'), ('csp.mslf.sf.rec_model'): ('rec_model'), ('csp.mslf.sf.alpha_env1', 'csp.mslf.sf.alpha_env2', 'csp.mslf.sf.alpha_env3', 'csp.mslf.sf.alpha_env4'): ('alpha_env'), ('csp.mslf.sf.alpha_abs1', 'csp.mslf.sf.alpha_abs2', 'csp.mslf.sf.alpha_abs3', 'csp.mslf.sf.alpha_abs4'): ('alpha_abs'), ('csp.mslf.sf.opt_model'): ('opt_model'), (): ('I_b'), ('csp.mslf.sf.Tau_envelope1', 'csp.mslf.sf.Tau_envelope2', 'csp.mslf.sf.Tau_envelope3', 'csp.mslf.sf.Tau_envelope4'): ('Tau_envelope'), ('csp.mslf.sf.IAM_L_coefs0', 'csp.mslf.sf.IAM_L_coefs1', 'csp.mslf.sf.IAM_L_coefs2', 'csp.mslf.sf.IAM_L_coefs3', 'csp.mslf.sf.IAM_L_coefs4'): ('IAM_L_coefs'), ('hl_des', 'I_bn_des', 'A_aperture', 'L_mod'): ('hl_derate'), ('T_loop_in_des', 'T_loop_out', 'T_amb_sf_des'): ('csp.mslf.sf.avg_dt_des'), ('csp.mslf.sf.AbsorberMaterial'): ('AbsorberMaterial'), ('csp.mslf.sf.D_abs_out'): ('D_abs_out'), ('csp.mslf.sf.Design_loss1', 'csp.mslf.sf.Design_loss2', 'csp.mslf.sf.Design_loss3', 'csp.mslf.sf.Design_loss4'): ('Design_loss'), ('csp.mslf.sf.rec_model', 'csp.mslf.sf.HCE_FieldFrac1', 'csp.mslf.sf.Shadowing1', 'csp.mslf.sf.dirt_env1', 'csp.mslf.sf.HCE_FieldFrac2', 'csp.mslf.sf.Shadowing2', 'csp.mslf.sf.dirt_env2', 'csp.mslf.sf.HCE_FieldFrac3', 'csp.mslf.sf.Shadowing3', 'csp.mslf.sf.dirt_env3', 'csp.mslf.sf.HCE_FieldFrac4', 'csp.mslf.sf.Shadowing4', 'csp.mslf.sf.dirt_env4'): ('opt_derate'), ('csp.mslf.sf.HL_T_coefs0', 'csp.mslf.sf.HL_T_coefs1', 'csp.mslf.sf.HL_T_coefs2', 'csp.mslf.sf.HL_T_coefs3', 'csp.mslf.sf.HL_T_coefs4'): ('HL_T_coefs'), ('nMod', 'DP_nominal'): ('DP_pressure_loss'), ('csp.mslf.sf.rec_model', 'csp.mslf.sf.HL_T_coefs0', 'csp.mslf.sf.HL_T_coefs1', 'csp.mslf.sf.avg_dt_des', 'csp.mslf.sf.HL_T_coefs2', 'csp.mslf.sf.HL_T_coefs3', 'csp.mslf.sf.HL_T_coefs4', 'csp.mslf.sf.HCE_FieldFrac1', 'csp.mslf.sf.Design_loss1', 'csp.mslf.sf.HCE_FieldFrac2', 'csp.mslf.sf.Design_loss2', 'csp.mslf.sf.HCE_FieldFrac3', 'csp.mslf.sf.Design_loss3', 'csp.mslf.sf.HCE_FieldFrac4', 'csp.mslf.sf.Design_loss4'): ('hl_des') }, 'Molten Salt Linear Fresnel Capital Costs': { ('csp.mslf.cost.total_indirect'): ('total_direct_cost'), (): ('system_use_lifetime_output'), (): ('system_use_recapitalization'), ('csp.mslf.cost.sales_tax.value', 'csp.mslf.cost.total_direct', 'csp.mslf.cost.sales_tax.percent'): ('csp.mslf.cost.sales_tax.total'), ('csp.mslf.cost.epc.total', 'csp.mslf.cost.plm.total', 'csp.mslf.cost.sales_tax.total'): ('csp.mslf.cost.total_indirect'), ('csp.mslf.cost.fossil_backup.mwe', 'csp.mslf.cost.fossil_backup.cost_per_kwe'): ('csp.mslf.cost.fossil_backup'), ('sales_tax_rate'): ('csp.mslf.cost.sales_tax.value'), ('csp.mslf.cost.solar_field.area', 'csp.mslf.cost.solar_field.cost_per_m2'): ('csp.mslf.cost.solar_field'), ('a_sf_act'): ('csp.mslf.cost.site_improvements.area'), ('csp.mslf.cost.total_installed', 'nameplate'): ('csp.mslf.cost.installed_per_capacity'), ('a_sf_act'): ('csp.mslf.cost.htf_system.area'), ('csp.mslf.cost.contingency', 'csp.mslf.cost.site_improvements', 'csp.mslf.cost.solar_field', 'csp.mslf.cost.htf_system', 'csp.mslf.cost.fossil_backup', 'csp.mslf.cost.power_plant', 'csp.mslf.cost.bop', 'csp.mslf.cost.ts'): ('csp.mslf.cost.total_direct'), ('csp.mslf.cost.bop_mwe', 'csp.mslf.cost.bop_per_kwe'): ('csp.mslf.cost.bop'), ('csp.mslf.cost.contingency_percent', 'csp.mslf.cost.site_improvements', 'csp.mslf.cost.solar_field', 'csp.mslf.cost.htf_system', 'csp.mslf.cost.fossil_backup', 'csp.mslf.cost.power_plant', 'csp.mslf.cost.bop', 'csp.mslf.cost.ts'): ('csp.mslf.cost.contingency'), ('demand_var'): ('csp.mslf.cost.fossil_backup.mwe'), ('demand_var'): ('csp.mslf.cost.power_plant.mwe'), ('csp.mslf.cost.site_improvements.area', 'csp.mslf.cost.site_improvements.cost_per_m2'): ('csp.mslf.cost.site_improvements'), ('csp.mslf.cost.epc.per_acre', 'csp.mslf.cost.total_land_area', 'csp.mslf.cost.epc.percent', 'csp.mslf.cost.total_direct', 'csp.mslf.cost.nameplate', 'csp.mslf.cost.epc.per_watt', 'csp.mslf.cost.epc.fixed'): ('csp.mslf.cost.epc.total'), ('csp.mslf.cost.ts_mwht', 'csp.mslf.cost.ts_per_kwht'): ('csp.mslf.cost.ts'), ('a_sf_act'): ('csp.mslf.cost.solar_field.area'), ('csp.mslf.cost.total_direct', 'csp.mslf.cost.total_indirect'): ('csp.mslf.cost.total_installed'), ('TES_cap'): ('csp.mslf.cost.ts_mwht'), ('nameplate'): ('csp.mslf.cost.nameplate'), ('total_land_area'): ('csp.mslf.cost.total_land_area'), ('demand_var'): ('csp.mslf.cost.bop_mwe'), ('csp.mslf.cost.htf_system.area', 'csp.mslf.cost.htf_system.cost_per_m2'): ('csp.mslf.cost.htf_system'), ('csp.mslf.cost.power_plant.mwe', 'csp.mslf.cost.power_plant.cost_per_kwe'): ('csp.mslf.cost.power_plant'), ('csp.mslf.cost.total_installed'): ('total_installed_cost'), ('csp.mslf.cost.plm.per_acre', 'csp.mslf.cost.total_land_area', 'csp.mslf.cost.plm.percent', 'csp.mslf.cost.total_direct', 'csp.mslf.cost.nameplate', 'csp.mslf.cost.plm.per_watt', 'csp.mslf.cost.plm.fixed'): ('csp.mslf.cost.plm.total') }, 'Financial Sale Leaseback': { ('sponsor_operating_margin', 'system_capacity'): ('sponsor_operating_margin_amount') }, 'Financial Cost of Financing Flip Leaseback': { ('federal_tax_rate', 'state_tax_rate', 'cost_dev_fee_value'): ('cost_dev_fee_tax_liability'), ('total_installed_cost', 'cost_dev_fee_percent'): ('cost_dev_fee_value') }, 'Financial Salvage Value': { ('salvage_percentage', 'total_installed_cost'): ('salvage_value') }, 'Fuel Cell': { ('fuelcell_dynamic_response_down_input', 'fuelcell_dynamic_response_down_units', 'fuelcell_power_nameplate'): ('fuelcell_dynamic_response_down'), ('fuelcell_dynamic_response_up_input', 'fuelcell_dynamic_response_up_units', 'fuelcell_power_nameplate'): ('fuelcell_dynamic_response_up'), ('fuelcell_unit_min_power_input', 'fuelcell_unit_min_units', 'fuelcell_unit_max_power'): ('fuelcell_unit_min_power'), ('fuelcell_unit_min_power', 'fuelcell_number_of_units'): ('fuelcell_power_min'), ('fuelcell_degradation_input', 'fuelcell_degradation_units', 'fuelcell_unit_max_power'): ('fuelcell_degradation'), ('fuelcell_fuel_type', 'fuelcell_fuel_available_in', 'fuelcell_fuel_available_units'): ('fuelcell_fuel_available'), ('fuelcell_unit_max_power', 'fuelcell_number_of_units'): ('fuelcell_power_nameplate'), ('fuelcell_lhv_in', 'fuelcell_fuel_type', 'fuelcell_lhv_units'): ('fuelcell_lhv') }, 'Generic System Plant': { ('derate', 'spec_mode', 'user_capacity_factor', 'first_year_output_peak', 'first_year_output', 'system_capacity'): ('capacity_factor_calc'), ('derate', 'spec_mode', 'system_capacity', 'energy_output_array'): ('first_year_output_peak'), ('derate', 'spec_mode', 'system_capacity', 'user_capacity_factor', 'energy_output_array'): ('first_year_output'), ('heat_rate'): ('conv_eff') }, 'Financial Tax and Insurance Rates': { ('prop_tax_cost_assessed_percent', 'total_installed_cost'): ('property_assessed_value') }, 'Linear Fresnel Capital Costs': { (): ('system_use_lifetime_output'), ('csp.lf.cost.total_indirect'): ('total_direct_cost'), ('demand_var'): ('csp.lf.cost.power_plant.mwe'), ('csp.lf.cost.solar_field.area', 'csp.lf.cost.solar_field.cost_per_m2'): ('csp.lf.cost.solar_field'), ('csp.lf.cost.htf_system.area', 'csp.lf.cost.htf_system.cost_per_m2'): ('csp.lf.cost.htf_system'), (): ('system_use_recapitalization'), ('actual_aper'): ('csp.lf.cost.htf_system.area'), ('nameplate'): ('csp.lf.cost.nameplate'), ('demand_var'): ('csp.lf.cost.fossil_backup.mwe'), ('csp.lf.cost.site_improvements.area', 'csp.lf.cost.site_improvements.cost_per_m2'): ('csp.lf.cost.site_improvements'), ('csp.lf.cost.epc.total', 'csp.lf.cost.plm.total', 'csp.lf.cost.sales_tax.total'): ('csp.lf.cost.total_indirect'), ('csp.lf.cost.sales_tax.value', 'csp.lf.cost.total_direct', 'csp.lf.cost.sales_tax.percent'): ('csp.lf.cost.sales_tax.total'), ('actual_aper'): ('csp.lf.cost.site_improvements.area'), ('csp.lf.cost.bop_mwe', 'csp.lf.cost.bop_per_kwe'): ('csp.lf.cost.bop'), ('csp.lf.cost.total_direct', 'csp.lf.cost.total_indirect'): ('csp.lf.cost.total_installed'), ('actual_aper'): ('csp.lf.cost.solar_field.area'), ('demand_var'): ('csp.lf.cost.bop_mwe'), ('csp.lf.cost.contingency', 'csp.lf.cost.site_improvements', 'csp.lf.cost.solar_field', 'csp.lf.cost.htf_system', 'csp.lf.cost.fossil_backup', 'csp.lf.cost.power_plant', 'csp.lf.cost.bop'): ('csp.lf.cost.total_direct'), ('csp.lf.cost.power_plant.mwe', 'csp.lf.cost.power_plant.cost_per_kwe'): ('csp.lf.cost.power_plant'), ('csp.lf.cost.fossil_backup.mwe', 'csp.lf.cost.fossil_backup.cost_per_kwe'): ('csp.lf.cost.fossil_backup'), ('csp.lf.sf.total_land_area', 'total_land_area'): ('csp.lf.cost.total_land_area'), ('sales_tax_rate'): ('csp.lf.cost.sales_tax.value'), ('csp.lf.cost.contingency_percent', 'csp.lf.cost.site_improvements', 'csp.lf.cost.solar_field', 'csp.lf.cost.htf_system', 'csp.lf.cost.fossil_backup', 'csp.lf.cost.power_plant', 'csp.lf.cost.bop'): ('csp.lf.cost.contingency'), ('csp.lf.cost.total_installed', 'nameplate'): ('csp.lf.cost.installed_per_capacity'), ('csp.lf.cost.plm.per_acre', 'csp.lf.cost.total_land_area', 'csp.lf.cost.plm.percent', 'csp.lf.cost.total_direct', 'csp.lf.cost.nameplate', 'csp.lf.cost.plm.per_watt', 'csp.lf.cost.plm.fixed'): ('csp.lf.cost.plm.total'), ('csp.lf.cost.epc.per_acre', 'csp.lf.cost.total_land_area', 'csp.lf.cost.epc.percent', 'csp.lf.cost.total_direct', 'csp.lf.cost.nameplate', 'csp.lf.cost.epc.per_watt', 'csp.lf.cost.epc.fixed'): ('csp.lf.cost.epc.total'), ('csp.lf.cost.total_installed'): ('total_installed_cost'), ('csp.lf.sf.dp.actual_aper', 'a_sf_act'): ('actual_aper') }, 'Molten Salt Linear Fresnel Storage': { ('dt_hot'): ('dt_cold'), ('csp.mslf.control.store_fluid'): ('csp.mslf.tes.htf_max_opt_temp'), ('mslf_is_hx', 'dt_hot', 'dt_cold', 'T_loop_out', 'T_loop_in_des'): ('hx_derate'), ('h_tank', 'd_tank', 'tank_pairs', 'tes_temp', 'u_tank'): ('csp.mslf.tes.estimated_heat_loss'), ('vol_tank', 'h_tank', 'tank_pairs'): ('d_tank'), ('T_loop_in_des', 'T_loop_out'): ('tes_temp'), ('csp.mslf.control.store_fluid'): ('csp.mslf.tes.htf_min_opt_temp'), ('sf_q_design', 'tshours'): ('TES_cap'), ('TES_cap', 'csp.mslf.control.tes_dens', 'csp.mslf.control.tes_cp', 'hx_derate', 'T_loop_out', 'dt_hot', 'T_loop_in_des', 'dt_cold'): ('vol_tank'), ('csp.mslf.control.store_fluid', 'tes_temp', 'store_fl_props'): ('csp.mslf.control.tes_dens'), ('vol_tank'): ('V_tank_hot_ini'), ('csp.mslf.control.store_fluid', 'tes_temp', 'store_fl_props'): ('csp.mslf.control.tes_cp'), ('T_loop_in_des'): ('T_field_in_des'), ('csp.mslf.control.store_fluid'): ('store_fluid'), ('sf_q_design', 'solar_mult'): ('q_max_aux'), ('T_loop_in_des'): ('T_tank_cold_ini'), ('vol_tank', 'h_tank_min', 'h_tank'): ('vol_min'), ('T_loop_out'): ('T_tank_hot_ini'), ('csp.mslf.enet.tes_fp_mode'): ('fp_mode') }, 'Financial Depreciation Detailed': { ('depr_alloc_macrs_5_percent', 'depr_alloc_macrs_15_percent', 'depr_alloc_sl_5_percent', 'depr_alloc_sl_15_percent', 'depr_alloc_sl_20_percent', 'depr_alloc_sl_39_percent', 'depr_alloc_custom_percent'): ('depr_alloc_none') }, 'Dish Solar Field': { ('csp.ds.total_capacity'): ('system_capacity'), ('n_ew', 'n_ns'): ('csp.ds.ncollectors'), ('csp.ds.ncollectors', 'csp.ds.nameplate_capacity'): ('csp.ds.total_capacity'), ('ew_dish_sep', 'ns_dish_sep', 'csp.ds.ncollectors'): ('csp.ds.field_area') }, 'Empirical Trough SCA': { ('ui_HCEdust'): ('HCEdust'), ('SCA_aper'): ('RefMirrAper'), ('TrkTwstErr', 'GeoAcc', 'MirRef', 'MirCln', 'ConcFac'): ('calc_col_factor') }, 'Electric Load Other': { ('load_model', 'load_user_data', 'normalize_to_utility_bill', 'utility_bill_data', 'scale_factor'): ('load', 'load_annual_total', 'annual_peak', 'energy_1', 'peak_1', 'energy_2', 'peak_2', 'energy_3', 'peak_3', 'energy_4', 'peak_4', 'energy_5', 'peak_5', 'energy_6', 'peak_6', 'energy_7', 'peak_7', 'energy_8', 'peak_8', 'energy_9', 'peak_9', 'energy_10', 'peak_10', 'energy_11', 'peak_11', 'energy_12', 'peak_12'), ('escal_input_hourly'): ('escal_other') }, 'Biopower System Cost': { ('biopwr.cost.total_indirect'): ('total_indirect_cost'), ('biopwr.cost.total_direct'): ('total_direct_cost'), (): ('system_use_lifetime_output'), ('biopwr.plant.nameplate'): ('biopwr.cost.turbine_capacity'), ('biopwr.cost.plm.percent', 'biopwr.cost.total_direct'): ('biopwr.cost.plm.nonfixed'), ('biopwr.plant.nameplate'): ('biopwr.cost.equipment_capacity'), ('biopwr.plant.nameplate'): ('biopwr.cost.prep_capacity'), ('biopwr.cost.prep_capacity', 'biopwr.cost.prep_per_cap'): ('biopwr.cost.prep'), ('biopwr.cost.dryer_capacity', 'biopwr.cost.dryer_per_kw'): ('biopwr.cost.dryer'), ('biopwr.plant.boiler.cap_per_boiler'): ('biopwr.cost.cap_per_boiler'), ('biopwr.cost.sales_tax.value', 'biopwr.cost.sales_tax.percent', 'biopwr.cost.total_direct'): ('biopwr.cost.sales_tax.total'), ('biopwr.cost.total_direct', 'biopwr.cost.epc.percent'): ('biopwr.cost.epc.nonfixed'), ('biopwr.cost.boiler_capacity', 'biopwr.cost.boiler.cost_per_kw'): ('biopwr.cost.boiler'), ('biopwr.cost.contingency', 'biopwr.cost.boiler', 'biopwr.cost.turbine', 'biopwr.cost.prep', 'biopwr.cost.dryer', 'biopwr.cost.equipment', 'biopwr.cost.bop'): ('biopwr.cost.total_direct'), ('total_installed_cost', 'biopwr.plant.nameplate'): ('biopwr.cost.installed_per_capacity'), ('biopwr.cost.bop_per_kw', 'biopwr.cost.bop_capacity'): ('biopwr.cost.bop'), ('biopwr.cost.epc.total', 'biopwr.cost.plm.total', 'biopwr.cost.sales_tax.total'): ('biopwr.cost.total_indirect'), ('biopwr.cost.plm.fixed', 'biopwr.cost.plm.nonfixed'): ('biopwr.cost.plm.total'), ('sales_tax_rate'): ('biopwr.cost.sales_tax.value'), ('biopwr.cost.turbine_capacity', 'biopwr.cost.turbine_per_kw'): ('biopwr.cost.turbine'), ('biopwr.plant.nameplate', 'biopwr.plant.par'): ('biopwr.cost.bop_capacity'), ('biopwr.cost.epc.fixed', 'biopwr.cost.epc.nonfixed'): ('biopwr.cost.epc.total'), ('biopwr.cost.total_direct', 'biopwr.cost.total_indirect'): ('total_installed_cost'), ('biopwr.cost.contingency_percent', 'biopwr.cost.boiler', 'biopwr.cost.turbine', 'biopwr.cost.prep', 'biopwr.cost.equipment', 'biopwr.cost.bop'): ('biopwr.cost.contingency'), ('biopwr.plant.drying_method', 'biopwr.plant.nameplate'): ('biopwr.cost.dryer_capacity'), ('biopwr.cost.equipment_capacity', 'biopwr.cost.equipment.cost_per_kw'): ('biopwr.cost.equipment'), (): ('system_use_recapitalization'), ('biopwr.plant.nameplate'): ('biopwr.cost.boiler_capacity') }, 'Financial Reserve Accounts': { ('system_capacity', 'equip2_reserve_cost'): ('mera_cost2'), ('system_capacity', 'equip3_reserve_cost'): ('mera_cost3'), ('system_capacity', 'equip1_reserve_cost'): ('mera_cost1') }, 'Financial Equity Flip Structure': { ('tax_investor_postflip_tax_percent'): ('developer_postflip_tax_percent'), ('tax_investor_preflip_tax_percent'): ('developer_preflip_tax_percent'), ('tax_investor_postflip_cash_percent'): ('developer_postflip_cash_percent'), ('tax_investor_preflip_cash_percent'): ('developer_preflip_cash_percent'), ('tax_investor_equity_percent'): ('developer_equity_percent') }, 'Biopower Feedstock Costs': { ('biopwr.feedstockcost.coal_fuel_cost'): ('om_opt_fuel_2_cost'), ('biopwr.feedstockcost.coal_fuel_used'): ('om_opt_fuel_2_usage'), ('biopwr.feedstock.total_coal'): ('biopwr.feedstockcost.coal_fuel_used'), ('biopwr.feedstockcost.biomass_fuel_cost_esc'): ('om_opt_fuel_1_cost_escal'), ('biopwr.feedstockcost.coal_fuel_cost_esc'): ('om_opt_fuel_2_cost_escal'), ('biopwr.feedstock.subbit_resource'): ('biopwr.feedstockcost.subbit_resource'), ('biopwr.feedstock.forest_resource', 'biopwr.feedstock.forest_obtainable'): ('biopwr.feedstockcost.forest_resource'), ('biopwr.feedstock.mill_resource', 'biopwr.feedstock.mill_obtainable'): ('biopwr.feedstockcost.mill_resource'), ('biopwr.feedstock.barley_resource', 'biopwr.feedstock.barley_obtainable'): ('biopwr.feedstockcost.barley_resource'), ('biopwr.feedstock.rice_resource', 'biopwr.feedstock.rice_obtainable'): ('biopwr.feedstockcost.rice_resource'), ('biopwr.feedstock.wheat_resource', 'biopwr.feedstock.wheat_obtainable'): ('biopwr.feedstockcost.wheat_resource'), ('biopwr.feedstock.bagasse_resource', 'biopwr.feedstock.bagasse_obtainable'): ('biopwr.feedstockcost.bagasse_resource'), ('biopwr.feedstockcost.biomass_cost', 'biopwr.feedstock.total_biomass_hhv'): ('biopwr.feedstockcost.biomass_fuel_cost'), ('biopwr.feedstock.total_biomass', 'biopwr.feedstock.bagasse_biomass_frac', 'biopwr.feedstockcost.bagasse_price', 'biopwr.feedstock.barley_biomass_frac', 'biopwr.feedstockcost.barley_price', 'biopwr.feedstock.stover_biomass_frac', 'biopwr.feedstockcost.stover_price', 'biopwr.feedstock.rice_biomass_frac', 'biopwr.feedstockcost.rice_price', 'biopwr.feedstock.wheat_biomass_frac', 'biopwr.feedstockcost.wheat_price', 'biopwr.feedstock.forest_biomass_frac', 'biopwr.feedstockcost.forest_price', 'biopwr.feedstock.mill_biomass_frac', 'biopwr.feedstockcost.mill_price', 'biopwr.feedstock.urban_biomass_frac', 'biopwr.feedstockcost.urban_price', 'biopwr.feedstock.woody_biomass_frac', 'biopwr.feedstockcost.woody_price', 'biopwr.feedstock.herb_biomass_frac', 'biopwr.feedstockcost.herb_price', 'biopwr.feedstock.feedstock1_biomass_frac', 'biopwr.feedstockcost.feedstock1_price', 'biopwr.feedstock.feedstock2_biomass_frac', 'biopwr.feedstockcost.feedstock2_price', 'biopwr.feedstockcost.fixed_delivery_cost', 'biopwr.feedstock.collection_radius', 'biopwr.feedstockcost.var_delivery_cost', 'biopwr.feedstock.total_biomass_hhv'): ('biopwr.feedstockcost.biomass_cost'), ('biopwr.feedstockcost.biomass_fuel_cost', 'biopwr.feedstock.total_biomass_moisture'): ('biopwr.feedstockcost.green_biomass_cost'), ('biopwr.feedstock.urban_resource', 'biopwr.feedstock.urban_obtainable'): ('biopwr.feedstockcost.urban_resource'), ('biopwr.feedstock.feedstock1_resource'): ('biopwr.feedstockcost.feedstock1_resource'), ('biopwr.feedstock.woody_resource', 'biopwr.feedstock.woody_obtainable'): ('biopwr.feedstockcost.woody_resource'), ('biopwr.feedstock.lig_resource'): ('biopwr.feedstockcost.lig_resource'), ('biopwr.feedstockcost.coal_per_mmbtu', 'biopwr.feedstock.total_coal_hhv'): ('biopwr.feedstockcost.coal_fuel_cost'), ('biopwr.feedstock.total_biomass'): ('biopwr.feedstockcost.biomass_fuel_used'), ('biopwr.feedstock.stover_resource', 'biopwr.feedstock.stover_obtainable'): ('biopwr.feedstockcost.stover_resource'), ('biopwr.feedstock.coal_opt', 'biopwr.feedstock.bit_coal_frac', 'biopwr.feedstockcost.bit_price', 'biopwr.feedstock.subbit_coal_frac', 'biopwr.feedstockcost.subbit_price', 'biopwr.feedstock.lig_coal_frac', 'biopwr.feedstockcost.lig_price', 'biopwr.feedstock.total_coal_hhv'): ('biopwr.feedstockcost.coal_per_mmbtu'), ('biopwr.feedstockcost.biomass_fuel_cost'): ('om_opt_fuel_1_cost'), ('biopwr.feedstock.bit_resource'): ('biopwr.feedstockcost.bit_resource'), ('biopwr.feedstockcost.biomass_fuel_used'): ('om_opt_fuel_1_usage'), ('biopwr.feedstock.herb_resource', 'biopwr.feedstock.herb_obtainable'): ('biopwr.feedstockcost.herb_resource'), ('biopwr.feedstock.feedstock2_resource'): ('biopwr.feedstockcost.feedstock2_resource') }, 'Physical Trough Capital Costs': { (): ('system_use_recapitalization'), (): ('system_use_lifetime_output'), ('csp.dtr.cost.site_improvements.area', 'csp.dtr.cost.site_improvements.cost_per_m2'): ('csp.dtr.cost.site_improvements'), ('csp.dtr.cost.storage.mwht', 'csp.dtr.cost.storage.cost_per_kwht'): ('csp.dtr.cost.storage'), ('csp.dtr.cost.htf_system.area', 'csp.dtr.cost.htf_system.cost_per_m2'): ('csp.dtr.cost.htf_system'), ('csp.dtr.cost.sales_tax.value', 'total_direct_cost', 'csp.dtr.cost.sales_tax.percent'): ('csp.dtr.cost.sales_tax.total'), ('csp.dtr.cost.contingency', 'csp.dtr.cost.site_improvements', 'csp.dtr.cost.solar_field', 'csp.dtr.cost.htf_system', 'csp.dtr.cost.storage', 'csp.dtr.cost.fossil_backup', 'csp.dtr.cost.power_plant', 'csp.dtr.cost.bop'): ('total_direct_cost'), ('total_aperture'): ('csp.dtr.cost.solar_field.area'), ('P_ref'): ('csp.dtr.cost.bop_mwe'), ('P_ref'): ('csp.dtr.cost.fossil_backup.mwe'), ('csp.dtr.cost.power_plant.mwe', 'csp.dtr.cost.power_plant.cost_per_kwe'): ('csp.dtr.cost.power_plant'), ('csp.dtr.tes.thermal_capacity'): ('csp.dtr.cost.storage.mwht'), ('csp.dtr.cost.epc.per_acre', 'csp.dtr.cost.total_land_area', 'csp.dtr.cost.epc.percent', 'total_direct_cost', 'csp.dtr.cost.nameplate', 'csp.dtr.cost.epc.per_watt', 'csp.dtr.cost.epc.fixed'): ('csp.dtr.cost.epc.total'), ('total_aperture'): ('csp.dtr.cost.site_improvements.area'), ('csp.dtr.cost.plm.per_acre', 'csp.dtr.cost.total_land_area', 'csp.dtr.cost.plm.percent', 'total_direct_cost', 'csp.dtr.cost.nameplate', 'csp.dtr.cost.plm.per_watt', 'csp.dtr.cost.plm.fixed'): ('csp.dtr.cost.plm.total'), ('total_installed_cost', 'csp.dtr.pwrb.nameplate'): ('csp.dtr.cost.installed_per_capacity'), ('csp.dtr.cost.bop_mwe', 'csp.dtr.cost.bop_per_kwe'): ('csp.dtr.cost.bop'), ('csp.dtr.cost.contingency_percent', 'csp.dtr.cost.site_improvements', 'csp.dtr.cost.solar_field', 'csp.dtr.cost.htf_system', 'csp.dtr.cost.storage', 'csp.dtr.cost.fossil_backup', 'csp.dtr.cost.power_plant', 'csp.dtr.cost.bop'): ('csp.dtr.cost.contingency'), ('csp.dtr.pwrb.nameplate'): ('csp.dtr.cost.nameplate'), ('csp.dtr.cost.site_improvements', 'csp.dtr.cost.solar_field', 'csp.dtr.cost.htf_system', 'csp.dtr.cost.storage', 'csp.dtr.cost.fossil_backup', 'csp.dtr.cost.power_plant', 'csp.dtr.cost.bop'): ('direct_subtotal'), ('sales_tax_rate'): ('csp.dtr.cost.sales_tax.value'), ('total_land_area'): ('csp.dtr.cost.total_land_area'), ('P_ref'): ('csp.dtr.cost.power_plant.mwe'), ('total_aperture'): ('csp.dtr.cost.htf_system.area'), ('csp.dtr.cost.solar_field.area', 'csp.dtr.cost.solar_field.cost_per_m2'): ('csp.dtr.cost.solar_field'), ('csp.dtr.cost.epc.total', 'csp.dtr.cost.plm.total', 'csp.dtr.cost.sales_tax.total'): ('total_indirect_cost'), ('csp.dtr.cost.fossil_backup.mwe', 'csp.dtr.cost.fossil_backup.cost_per_kwe'): ('csp.dtr.cost.fossil_backup'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost') }, 'Battery Dispatch Manual': { ('dispatch_manual_gridcharge', 'batt_gridcharge_percent_1', 'batt_gridcharge_percent_2', 'batt_gridcharge_percent_3', 'batt_gridcharge_percent_4', 'batt_gridcharge_percent_5', 'batt_gridcharge_percent_6'): ('dispatch_manual_percent_gridcharge'), ('dispatch_manual_discharge', 'batt_discharge_percent_1', 'batt_discharge_percent_2', 'batt_discharge_percent_3', 'batt_discharge_percent_4', 'batt_discharge_percent_5', 'batt_discharge_percent_6'): ('dispatch_manual_percent_discharge'), ('pv.storage.p1.gridcharge', 'pv.storage.p2.gridcharge', 'pv.storage.p3.gridcharge', 'pv.storage.p4.gridcharge', 'pv.storage.p5.gridcharge', 'pv.storage.p6.gridcharge'): ('dispatch_manual_gridcharge'), ('pv.storage.p1.discharge', 'pv.storage.p2.discharge', 'pv.storage.p3.discharge', 'pv.storage.p4.discharge', 'pv.storage.p5.discharge', 'pv.storage.p6.discharge'): ('dispatch_manual_discharge'), ('pv.storage.p1.charge', 'pv.storage.p2.charge', 'pv.storage.p3.charge', 'pv.storage.p4.charge', 'pv.storage.p5.charge', 'pv.storage.p6.charge'): ('dispatch_manual_charge') }, 'CSP PBNS Dispatch Control': { ('csp.pbns.hc_ctl1', 'csp.pbns.hc_ctl2', 'csp.pbns.hc_ctl3', 'csp.pbns.hc_ctl4', 'csp.pbns.hc_ctl5', 'csp.pbns.hc_ctl6', 'csp.pbns.hc_ctl7', 'csp.pbns.hc_ctl8', 'csp.pbns.hc_ctl9'): ('F_wc'), ('csp.pbns.fossil1', 'csp.pbns.fossil2', 'csp.pbns.fossil3', 'csp.pbns.fossil4', 'csp.pbns.fossil5', 'csp.pbns.fossil6', 'csp.pbns.fossil7', 'csp.pbns.fossil8', 'csp.pbns.fossil9'): ('ffrac') }, 'Sandia PV Array Performance Model with Module Database': { ('snl_parallel_cells', 'snl_series_cells'): ('snl_n_cells'), ('snl_module_structure', 'snl_a', 'snl_b', 'snl_dtc', 'snl_specified_a', 'snl_specified_b', 'snl_specified_dT', 'snl_fd', 'snl_a0', 'snl_a1', 'snl_a2', 'snl_a3', 'snl_a4', 'snl_b0', 'snl_b1', 'snl_b2', 'snl_b3', 'snl_b4', 'snl_b5', 'snl_isco', 'snl_aisc', 'snl_c0', 'snl_c1', 'snl_aimp', 'snl_impo', 'snl_bvmpo', 'snl_mbvmp', 'snl_n', 'snl_c3', 'snl_series_cells', 'snl_c2', 'snl_vmpo', 'snl_bvoco', 'snl_mbvoc', 'snl_voco', 'snl_area'): ('snl_ref_a', 'snl_ref_b', 'snl_ref_dT', 'snl_ref_isc', 'snl_ref_isc_temp_0', 'snl_ref_isc_temp_1', 'snl_ref_imp', 'snl_ref_imp_temp_0', 'snl_imp_temp_1', 'snl_ref_vmp', 'snl_ref_vmp_temp_0', 'snl_ref_vmp_temp_1', 'snl_ref_pmp', 'snl_ref_pmp_temp_0', 'snl_ref_pmp_temp_1', 'snl_ref_voc', 'snl_ref_voc_temp_0', 'snl_voc_temp_1', 'snl_ref_eff') }, 'HCPV Costs': { (): ('system_use_lifetime_output'), ('hcpv.cost.engr.percent', 'total_direct_cost', 'hcpv.cost.modulearray.power', 'hcpv.cost.engr.per_watt', 'hcpv.cost.engr.fixed'): ('hcpv.cost.engr.total'), ('total_direct_cost', 'total_indirect_cost'): ('total_installed_cost'), ('hcpv.cost.bos_equip_fixed', 'hcpv.cost.modulearray.power', 'hcpv.cost.bos_equip_perwatt', 'hcpv.cost.modulearray.area', 'hcpv.cost.bos_equip_perarea'): ('hcpv.cost.bos_equip.totalcost'), ('hcpv.cost.module.totalcost', 'hcpv.cost.inverter.totalcost', 'hcpv.cost.tracker.totalcost', 'hcpv.cost.bos_equip.totalcost', 'hcpv.cost.install_labor.totalcost', 'hcpv.cost.install_margin.totalcost', 'hcpv.cost.contingency'): ('total_direct_cost'), ('hcpv.cost.inverter.power', 'hcpv.cost.inverter.num_units'): ('hcpv.cost.inverterarray.power'), ('hcpv.array.total_land_area'): ('hcpv.cost.land_area.value'), ('hcpv.cost.sales_tax.value', 'total_direct_cost', 'hcpv.cost.sales_tax.percent'): ('hcpv.cost.sales_tax.total'), ('hcpv.cost.tracker_fixed', 'hcpv.cost.modulearray.power', 'hcpv.cost.tracker_perwatt', 'hcpv.cost.modulearray.area', 'hcpv.cost.tracker_perarea'): ('hcpv.cost.tracker.totalcost'), ('sales_tax_rate'): ('hcpv.cost.sales_tax.value'), ('hcpv.cost.grid.percent', 'total_direct_cost', 'hcpv.cost.modulearray.power', 'hcpv.cost.grid.per_watt', 'hcpv.cost.grid.fixed'): ('hcpv.cost.grid.total'), ('hcpv.cost.install_labor_fixed', 'hcpv.cost.modulearray.power', 'hcpv.cost.install_labor_perwatt', 'hcpv.cost.modulearray.area', 'hcpv.cost.install_labor_perarea'): ('hcpv.cost.install_labor.totalcost'), ('total_installed_cost', 'hcpv.cost.modulearray.power'): ('hcpv.cost.installed_per_capacity'), ('hcpv.cost.land.per_acre', 'hcpv.cost.land_area.value', 'hcpv.cost.land.percent', 'total_direct_cost', 'hcpv.cost.modulearray.power', 'hcpv.cost.land.per_watt', 'hcpv.cost.land.fixed'): ('hcpv.cost.land.total'), ('hcpv.cost.inverter.costunits', 'hcpv.cost.inverter.num_units', 'hcpv.cost.inverter.power', 'hcpv.cost.per_inverter'): ('hcpv.cost.inverter.totalcost'), ('hcpv.cost.install_margin_fixed', 'hcpv.cost.modulearray.power', 'hcpv.cost.install_margin_perwatt', 'hcpv.cost.modulearray.area', 'hcpv.cost.install_margin_perarea'): ('hcpv.cost.install_margin.totalcost'), ('inv_snl_paco'): ('hcpv.cost.inverter.power'), ('array_num_inverters'): ('hcpv.cost.inverter.num_units'), ('hcpv.cost.module.power', 'hcpv.cost.module.num_units'): ('hcpv.cost.modulearray.power'), ('hcpv.module.power'): ('hcpv.cost.module.power'), ('hcpv.cost.landprep.per_acre', 'hcpv.cost.land_area.value', 'hcpv.cost.landprep.percent', 'total_direct_cost', 'hcpv.cost.modulearray.power', 'hcpv.cost.landprep.per_watt', 'hcpv.cost.landprep.fixed'): ('hcpv.cost.landprep.total'), ('hcpv.cost.permitting.percent', 'total_direct_cost', 'hcpv.cost.modulearray.power', 'hcpv.cost.permitting.per_watt', 'hcpv.cost.permitting.fixed'): ('hcpv.cost.permitting.total'), ('array_num_trackers', 'array_modules_per_tracker', 'hcpv.module.area'): ('hcpv.cost.modulearray.area'), (): ('system_use_recapitalization'), ('array_num_trackers', 'array_modules_per_tracker'): ('hcpv.cost.module.num_units'), ('hcpv.cost.contingency_percent', 'hcpv.cost.module.totalcost', 'hcpv.cost.inverter.totalcost', 'hcpv.cost.tracker.totalcost', 'hcpv.cost.bos_equip.totalcost', 'hcpv.cost.install_labor.totalcost', 'hcpv.cost.install_margin.totalcost'): ('hcpv.cost.contingency'), ('hcpv.cost.permitting.total', 'hcpv.cost.engr.total', 'hcpv.cost.grid.total', 'hcpv.cost.land.total', 'hcpv.cost.landprep.total', 'hcpv.cost.sales_tax.total'): ('total_indirect_cost'), ('hcpv.cost.module.costunits', 'hcpv.cost.module.num_units', 'hcpv.cost.module.power', 'hcpv.cost.per_module'): ('hcpv.cost.module.totalcost') }, 'Linear Fresnel Solar Field': { ('csp.lf.sf.geom1_area_frac', 'csp.lf.geom1.rec_optical_derate', 'csp.lf.geom1.coll_opt_loss_norm_inc', 'csp.lf.sf.geom2_area_frac', 'csp.lf.geom2.rec_optical_derate', 'csp.lf.geom2.coll_opt_loss_norm_inc'): ('csp.lf.sf.dp.loop_opt_eff'), ('csp.lf.sf.dp.loop_opt_eff', 'csp.lf.sf.dp.loop_therm_eff', 'csp.lf.sf.dp.piping_therm_eff'): ('csp.lf.sf.dp.total_loop_conv_eff'), ('lat'): ('latitude'), ('csp.lf.sf.dp.sm1_aperture', 'csp.lf.sf.dp.loop_aperture'): ('csp.lf.sf.dp.sm1_numloops'), ('csp.lf.sf.dp.actual_aper'): ('csp.lf.sf.field_area'), ('demand_var', 'eta_ref', 'I_bn_des', 'csp.lf.sf.dp.total_loop_conv_eff'): ('csp.lf.sf.dp.sm1_aperture'), ('csp.lf.sf.sh_geom_unique', 'nModSH', 'csp.lf.geom2.refl_aper_area', 'nModBoil', 'csp.lf.geom1.refl_aper_area'): ('csp.lf.sf.geom2_area_frac'), ('csp.lf.sf.sh_geom_unique', 'nModBoil', 'csp.lf.geom1.refl_aper_area', 'nModSH', 'csp.lf.geom2.refl_aper_area'): ('csp.lf.sf.geom1_area_frac'), ('Pipe_hl_coef', 'T_cold_ref', 'T_hot', 'T_amb_des_sf', 'I_bn_des'): ('csp.lf.sf.dp.piping_therm_eff'), ('csp.lf.sf.dp.actual_aper', 'I_bn_des', 'csp.lf.sf.dp.total_loop_conv_eff'): ('q_max_aux'), ('csp.lf.sf.sh_geom_unique', 'nModBoil', 'nModSH', 'csp.lf.geom1.refl_aper_area', 'csp.lf.geom2.refl_aper_area'): ('csp.lf.sf.dp.loop_aperture'), ('csp.lf.sf.field_area', 'csp.lf.sf.area_multiplier'): ('csp.lf.sf.total_land_area'), ('csp.lf.sf.sm_or_area', 'csp.lf.sf.specified_solar_multiple', 'csp.lf.sf.dp.sm1_aperture', 'csp.lf.sf.specified_total_aperture', 'csp.lf.sf.dp.loop_aperture'): ('nLoops'), ('ColAz'): ('azimuth'), ('csp.lf.sf.dp.loop_aperture', 'nLoops'): ('csp.lf.sf.dp.actual_aper'), ('fP_hdr_c', 'fP_sf_boil', 'fP_boil_to_sh', 'fP_sf_sh', 'fP_hdr_h', 'P_turb_des'): ('csp.lf.sf.total_pres_drop'), ('csp.lf.sf.sm_or_area', 'csp.lf.sf.specified_solar_multiple', 'csp.lf.sf.dp.actual_aper', 'csp.lf.sf.dp.sm1_aperture'): ('solarm'), ('csp.lf.geom1.rec_thermal_derate', 'csp.lf.sf.geom1_area_frac', 'csp.lf.geom2.rec_thermal_derate', 'csp.lf.sf.geom2_area_frac'): ('csp.lf.sf.dp.loop_therm_eff'), ('P_boil_des'): ('P_turb_des') }, 'Inverter Datasheet': { ('inv_ds_paco', 'inv_ds_eff'): ('inv_ds_pdco'), ('inv_ds_eff_type', 'inv_ds_paco'): ('inv_ds_pso_suggested'), ('inv_ds_eff_type', 'inv_ds_eff_weighted', 'inv_ds_eff_peak_or_nom'): ('inv_ds_eff'), ('inv_ds_paco'): ('inv_ds_pnt_suggested') }, 'MSPT System Design': { ('tshours', 'solarm'): ('tshours_sf'), ('solarm', 'q_pb_design'): ('Q_rec_des'), ('P_ref', 'design_eff'): ('q_pb_design'), ('P_ref', 'gross_net_conversion_factor'): ('nameplate') }, 'Molten Salt Linear Fresnel Solar Field': { ('fthrok'): ('fthr_ok'), (): ('nodes'), (): ('tc_void'), (): ('tc_fill'), (): ('tes_type'), (): ('t_ch_out_max'), (): ('fc_on'), (): ('f_tc_cold'), ('sm1_aperture', 'a_loop'): ('csp.mslf.sf.sm1_nLoops'), ('sf_q_design', 'I_bn_des', 'loop_eff'): ('sm1_aperture'), ('csp.mslf.sf.sm_or_area', 'solar_mult_spec', 'sm1_aperture', 'a_field', 'a_loop'): ('nLoops'), ('P_ref', 'eta_ref'): ('sf_q_design'), ('a_loop', 'nLoops'): ('a_sf_act'), ('csp.mslf.sf.sm_or_area', 'solar_mult_spec', 'a_sf_act', 'sm1_aperture'): ('solar_mult'), ('csp.mslf.sf.Fluid'): ('Fluid'), ('a_sf_act', 'I_bn_des', 'loop_eff'): ('field_thermal_output'), ('csp.mslf.sf.Fluid'): ('htf_max_opt_temp'), ('a_sf_act'): ('field_area'), ('csp.mslf.sf.Fluid'): ('htf_min_opt_temp'), ('nMod'): ('nSCA'), ('field_area', 'land_mult'): ('total_land_area'), ('opt_derate', 'opt_normal'): ('loop_opt_eff'), ('loop_opt_eff', 'hl_derate'): ('loop_eff'), ('hl_derate'): ('loop_therm_eff'), ('csp.mslf.sf.FieldConfig'): ('FieldConfig'), ('T_loop_out'): ('T_field_out_des'), ('csp.mslf.sf.fthrctrl'): ('fthrctrl'), ('nMod', 'A_aperture'): ('a_loop'), (): ('t_dis_out_min'), ('csp.mslf.sf.Fluid', 'Fluid', 'T_loop_in_des', 'T_loop_out', 'field_fl_props'): ('field_htf_cp_avg'), ('solar_mult'): ('solarm'), ('HTF_data'): ('field_fl_props'), ('Fluid'): ('field_fluid') }, 'Linear Fresnel Collector and Receiver Header': { ('csp.lf.geom2.solpos_collinc_table'): ('sh_OpticalTable'), ('csp.lf.geom1.solpos_collinc_table'): ('b_OpticalTable'), ('csp.lf.geom2.var4.abs_emis'): ('sh_eps_HCE4'), ('csp.lf.geom2.var3.abs_emis'): ('sh_eps_HCE3'), ('csp.lf.geom2.var2.abs_emis'): ('sh_eps_HCE2'), ('csp.lf.geom2.var1.abs_emis'): ('sh_eps_HCE1'), ('csp.lf.geom1.var4.abs_emis'): ('b_eps_HCE4'), ('csp.lf.geom1.glazing_intact', 'csp.lf.geom2.glazing_intact'): ('GlazingIntactIn'), ('csp.lf.geom1.var1.abs_emis'): ('b_eps_HCE1'), ('csp.lf.geom1.var1.annulus_pressure', 'csp.lf.geom1.var2.annulus_pressure', 'csp.lf.geom1.var3.annulus_pressure', 'csp.lf.geom1.var4.annulus_pressure', 'csp.lf.geom2.var1.annulus_pressure', 'csp.lf.geom2.var2.annulus_pressure', 'csp.lf.geom2.var3.annulus_pressure', 'csp.lf.geom2.var4.annulus_pressure'): ('P_a'), ('csp.lf.geom1.annulus_gas', 'csp.lf.geom2.annulus_gas'): ('AnnulusGas'), ('csp.lf.geom1.var1.env_trans', 'csp.lf.geom1.var2.env_trans', 'csp.lf.geom1.var3.env_trans', 'csp.lf.geom1.var4.env_trans', 'csp.lf.geom2.var1.env_trans', 'csp.lf.geom2.var2.env_trans', 'csp.lf.geom2.var3.env_trans', 'csp.lf.geom2.var4.env_trans'): ('Tau_envelope'), ('csp.lf.geom1.var3.abs_emis'): ('b_eps_HCE3'), ('csp.lf.geom1.iamt0', 'csp.lf.geom1.iamt1', 'csp.lf.geom1.iamt2', 'csp.lf.geom1.iamt3', 'csp.lf.geom1.iamt4', 'csp.lf.geom2.iamt0', 'csp.lf.geom2.iamt1', 'csp.lf.geom2.iamt2', 'csp.lf.geom2.iamt3', 'csp.lf.geom2.iamt4'): ('IAM_T'), ('csp.lf.geom1.var1.env_emis', 'csp.lf.geom1.var2.env_emis', 'csp.lf.geom1.var3.env_emis', 'csp.lf.geom1.var4.env_emis', 'csp.lf.geom2.var1.env_emis', 'csp.lf.geom2.var2.env_emis', 'csp.lf.geom2.var3.env_emis', 'csp.lf.geom2.var4.env_emis'): ('EPSILON_4'), ('csp.lf.geom1.var1.env_abs', 'csp.lf.geom1.var2.env_abs', 'csp.lf.geom1.var3.env_abs', 'csp.lf.geom1.var4.env_abs', 'csp.lf.geom2.var1.env_abs', 'csp.lf.geom2.var2.env_abs', 'csp.lf.geom2.var3.env_abs', 'csp.lf.geom2.var4.env_abs'): ('alpha_env'), ('csp.lf.geom1.var2.abs_emis'): ('b_eps_HCE2'), ('csp.lf.geom1.var1.hce_dirt', 'csp.lf.geom1.var2.hce_dirt', 'csp.lf.geom1.var3.hce_dirt', 'csp.lf.geom1.var4.hce_dirt', 'csp.lf.geom2.var1.hce_dirt', 'csp.lf.geom2.var2.hce_dirt', 'csp.lf.geom2.var3.hce_dirt', 'csp.lf.geom2.var4.hce_dirt'): ('Dirt_HCE'), ('csp.lf.geom1.iaml0', 'csp.lf.geom1.iaml1', 'csp.lf.geom1.iaml2', 'csp.lf.geom1.iaml3', 'csp.lf.geom1.iaml4', 'csp.lf.geom2.iaml0', 'csp.lf.geom2.iaml1', 'csp.lf.geom2.iaml2', 'csp.lf.geom2.iaml3', 'csp.lf.geom2.iaml4'): ('IAM_L'), ('csp.lf.geom1.hlpolyw0', 'csp.lf.geom1.hlpolyw1', 'csp.lf.geom1.hlpolyw2', 'csp.lf.geom1.hlpolyw3', 'csp.lf.geom1.hlpolyw4', 'csp.lf.geom2.hlpolyw0', 'csp.lf.geom2.hlpolyw1', 'csp.lf.geom2.hlpolyw2', 'csp.lf.geom2.hlpolyw3', 'csp.lf.geom2.hlpolyw4'): ('HL_W'), ('csp.lf.geom1.var1.abs_abs', 'csp.lf.geom1.var2.abs_abs', 'csp.lf.geom1.var3.abs_abs', 'csp.lf.geom1.var4.abs_abs', 'csp.lf.geom2.var1.abs_abs', 'csp.lf.geom2.var2.abs_abs', 'csp.lf.geom2.var3.abs_abs', 'csp.lf.geom2.var4.abs_abs'): ('alpha_abs'), ('csp.lf.geom1.var1.bellows_shadowing', 'csp.lf.geom1.var2.bellows_shadowing', 'csp.lf.geom1.var3.bellows_shadowing', 'csp.lf.geom1.var4.bellows_shadowing', 'csp.lf.geom2.var1.bellows_shadowing', 'csp.lf.geom2.var2.bellows_shadowing', 'csp.lf.geom2.var3.bellows_shadowing', 'csp.lf.geom2.var4.bellows_shadowing'): ('Shadowing'), ('csp.lf.geom1.hlpolyt0', 'csp.lf.geom1.hlpolyt1', 'csp.lf.geom1.hlpolyt2', 'csp.lf.geom1.hlpolyt3', 'csp.lf.geom1.hlpolyt4', 'csp.lf.geom2.hlpolyt0', 'csp.lf.geom2.hlpolyt1', 'csp.lf.geom2.hlpolyt2', 'csp.lf.geom2.hlpolyt3', 'csp.lf.geom2.hlpolyt4'): ('HL_dT'), ('csp.lf.geom1.var1.rated_heat_loss', 'csp.lf.geom1.var2.rated_heat_loss', 'csp.lf.geom1.var3.rated_heat_loss', 'csp.lf.geom1.var4.rated_heat_loss', 'csp.lf.geom2.var1.rated_heat_loss', 'csp.lf.geom2.var2.rated_heat_loss', 'csp.lf.geom2.var3.rated_heat_loss', 'csp.lf.geom2.var4.rated_heat_loss'): ('Design_loss'), ('csp.lf.geom1.var1.field_fraction', 'csp.lf.geom1.var2.field_fraction', 'csp.lf.geom1.var3.field_fraction', 'csp.lf.geom1.var4.field_fraction', 'csp.lf.geom2.var1.field_fraction', 'csp.lf.geom2.var2.field_fraction', 'csp.lf.geom2.var3.field_fraction', 'csp.lf.geom2.var4.field_fraction'): ('HCE_FieldFrac'), ('csp.lf.geom1.refl_aper_area', 'csp.lf.geom2.refl_aper_area', 'csp.lf.geom1.coll_length', 'csp.lf.geom2.coll_length', 'csp.lf.geom1.opt_mode', 'csp.lf.geom2.opt_mode', 'csp.lf.geom1.track_error', 'csp.lf.geom2.track_error', 'csp.lf.geom1.geom_error', 'csp.lf.geom2.geom_error', 'csp.lf.geom1.mirror_refl', 'csp.lf.geom2.mirror_refl', 'csp.lf.geom1.soiling', 'csp.lf.geom2.soiling', 'csp.lf.geom1.general_error', 'csp.lf.geom2.general_error', 'csp.lf.geom1.hl_mode', 'csp.lf.geom2.hl_mode', 'csp.lf.geom1.diam_absorber_inner', 'csp.lf.geom2.diam_absorber_inner', 'csp.lf.geom1.diam_absorber_outer', 'csp.lf.geom2.diam_absorber_outer', 'csp.lf.geom1.diam_envelope_inner', 'csp.lf.geom2.diam_envelope_inner', 'csp.lf.geom1.diam_envelope_outer', 'csp.lf.geom2.diam_envelope_outer', 'csp.lf.geom1.diam_absorber_plug', 'csp.lf.geom2.diam_absorber_plug', 'csp.lf.geom1.inner_roughness', 'csp.lf.geom2.inner_roughness', 'csp.lf.geom1.flow_type', 'csp.lf.geom2.flow_type', 'csp.lf.geom1.absorber_material', 'csp.lf.geom2.absorber_material'): ('A_aperture', 'L_col', 'OptCharType', 'TrackingError', 'GeomEffects', 'rho_mirror_clean', 'dirt_mirror', 'error', 'HLCharType', 'D_2', 'D_3', 'D_4', 'D_5', 'D_p', 'Rough', 'Flow_type', 'AbsorberMaterial') }}
#coding:utf-8 a = open('subtopic.csv','r') b = open('NoVec_but_subtopic.csv','r') c = open('NoVec_and_bin.csv','r') dict_topic_sub = {}#key=topic, value=set_of_subtopic num=0 for i in a: num+=1 if num>1: LINE = i.rstrip().split(',') topic = LINE[3] sub = LINE[5] if sub != '100': dict_topic_sub.setdefault(topic,set()).add(int(sub)) dict_topic_maxsub = {}#key=topic, value=max_num_of_subtopic for topic in dict_topic_sub: if len(dict_topic_sub[topic]) >= 1: maxsub_in_topic = max(list(dict_topic_sub[topic])) #print(maxsub_in_topic) dict_topic_maxsub[topic] = maxsub_in_topic else: dict_topic_maxsub[topic] = 0 d = open('NoVec_subtopic.csv','w') pre_suggest = '' for i in b: LINE = i.rstrip().split(',') ID = LINE[0] URL = LINE[1] suggest = LINE[2] topic = LINE[3] prob = LINE[4] try: maxsub = dict_topic_maxsub[topic] except: maxsub = 0 #print (maxsub) sub = 0 if suggest != pre_suggest: sub = maxsub + 1 dict_topic_maxsub[topic] = sub #topicのmax_num_of_subtopicを更新 else: sub = maxsub d.write(ID+','+URL+','+suggest+','+topic+','+prob+','+str(sub)+'\n') pre_suggest = suggest d.close() e = open('NoVec_bin.csv','w') for i in c: LINE = i.rstrip().split(',') ID = LINE[0] URL = LINE[1] suggest = LINE[2] topic = LINE[3] prob = LINE[4] sub = 100 e.write(ID+','+URL+','+suggest+','+topic+','+prob+','+str(sub)+'\n') e.close() a.close() b.close() c.close()
class Emoji: # noinspection PyShadowingBuiltins def __init__(self, id: str, name: str, animated: bool): self.emoji_id = id self.name = name self.animated = animated def is_unicode_emoji(self) -> bool: return self.emoji_id is None def util_id(self): if self.is_unicode_emoji(): return self.name else: return f"{self.name}:{self.emoji_id}" def __str__(self): if self.is_unicode_emoji(): return self.name else: return f"<:{self.name}:{self.emoji_id}>" def __eq__(self, other): # TODO: coimpare unicode emojies to non unicode if self.is_unicode_emoji() and isinstance(other, str): return self.name == other
def h(n, x, y): if n >0: tmp = 6 - x-y h(n-1, x, tmp) print(x, y) h(n-1, tmp, y) n = int(input()) h(n, 1, 3)
class Fib(object): @staticmethod def fib(n): a = 0 if n == 0: return a b = 1 for _ in range(1, n): c = a + b a = b b = c return b
class OperationEngineException(Exception): def __init__(self, message): Exception.__init__(self, message)
class Solution: def minMalwareSpread(self, graph: List[List[int]], initial: List[int]) -> int: if not graph: return -1 N = len(graph) clean = set(range(N)) - set(initial) def dfs(u, seen): for v, adj in enumerate(graph[u]): if adj and v in clean and v not in seen: seen.add(v) dfs(v, seen) d = collections.defaultdict(list) for u in initial: seen = set() dfs(u, seen) for v in seen: d[v].append(u) count = [0] * N for v, infects in d.items(): if len(infects) == 1: count[infects[0]] += 1 return count.index(max(count)) if max(count) != 0 else min(initial)
############################################################################ # # Copyright (C) 2016 The Qt Company Ltd. # Contact: https://www.qt.io/licensing/ # # This file is part of Qt Creator. # # Commercial License Usage # Licensees holding valid commercial Qt licenses may use this file in # accordance with the commercial license agreement provided with the # Software or, alternatively, in accordance with the terms contained in # a written agreement between you and The Qt Company. For licensing terms # and conditions see https://www.qt.io/terms-conditions. For further # information use the contact form at https://www.qt.io/contact-us. # # GNU General Public License Usage # Alternatively, this file may be used under the terms of the GNU # General Public License version 3 as published by the Free Software # Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT # included in the packaging of this file. Please review the following # information to ensure the GNU General Public License requirements will # be met: https://www.gnu.org/licenses/gpl-3.0.html. # ############################################################################ source("../../shared/qtcreator.py") # test Qt Creator version information from file and dialog def getQtCreatorVersionFromDialog(): chk = re.search("(?<=Qt Creator)\s\d+.\d+.\d+[-\w]", str(waitForObject("{text?='Qt Creator' type='QLabel' unnamed='1' visible='1' " "window=':About Qt Creator_Core::Internal::VersionDialog'}").text)) try: ver = chk.group(0).strip() return ver except: test.fail("Failed to get the exact version from Dialog") return "" def getQtCreatorVersionFromFile(): qtCreatorPriFileName = "../../../../qtcreator.pri" # open file <qtCreatorPriFileName> and read version fileText = readFile(qtCreatorPriFileName) chk = re.search("(?<=QTCREATOR_DISPLAY_VERSION =)\s\d+.\d+.\d+\S", fileText) try: ver = chk.group(0).strip() return ver except: test.fail("Failed to get the exact version from File") return "" def checkQtCreatorHelpVersion(expectedVersion): def rightStart(x): return x.startswith('Qt Creator Manual') switchViewTo(ViewConstants.HELP) try: helpContentWidget = waitForObject(':Qt Creator_QHelpContentWidget', 5000) waitFor("any(map(rightStart, dumpItems(helpContentWidget.model())))", 10000) items = dumpItems(helpContentWidget.model()) test.compare(filter(rightStart, items)[0], 'Qt Creator Manual %s' % expectedVersion, 'Verifying whether manual uses expected version.') except: t, v = sys.exc_info()[:2] test.log("Exception caught", "%s(%s)" % (str(t), str(v))) test.fail("Missing Qt Creator Manual.") def setKeyboardShortcutForAboutQtC(): invokeMenuItem("Tools", "Options...") waitForObjectItem(":Options_QListView", "Environment") clickItem(":Options_QListView", "Environment", 14, 15, 0, Qt.LeftButton) clickOnTab(":Options.qt_tabwidget_tabbar_QTabBar", "Keyboard") filter = waitForObject("{container={title='Keyboard Shortcuts' type='QGroupBox' unnamed='1' " "visible='1'} type='Utils::FancyLineEdit' unnamed='1' visible='1' " "placeholderText='Filter'}") replaceEditorContent(filter, "about") treewidget = waitForObject("{type='QTreeWidget' unnamed='1' visible='1'}") modelIndex = waitForObject("{column='0' text='AboutQtCreator' type='QModelIndex' " "container={column='0' text='QtCreator' type='QModelIndex' " "container=%s}}" % objectMap.realName(treewidget)) mouseClick(modelIndex, 5, 5, 0, Qt.LeftButton) shortcutGB = "{title='Shortcut' type='QGroupBox' unnamed='1' visible='1'}" record = waitForObject("{container=%s type='Core::Internal::ShortcutButton' unnamed='1' " "visible='1' text~='(Stop Recording\|Record)'}" % shortcutGB) shortcut = ("{container=%s type='Utils::FancyLineEdit' unnamed='1' visible='1' " "placeholderText='Enter key sequence as text'}" % shortcutGB) clickButton(record) nativeType("<Ctrl+Alt+a>") clickButton(record) expected = 'Ctrl+Alt+A' if platform.system() == 'Darwin': expected = 'Ctrl+Opt+A' shortcutMatches = waitFor("str(findObject(shortcut).text) == expected", 5000) if not shortcutMatches and platform.system() == 'Darwin': test.warning("Squish Issue: shortcut was set to %s - entering it manually now" % waitForObject(shortcut).text) replaceEditorContent(shortcut, expected) else: test.verify(shortcutMatches, "Expected key sequence is displayed.") clickButton(waitForObject(":Options.OK_QPushButton")) def main(): expectedVersion = getQtCreatorVersionFromFile() if not expectedVersion: test.fatal("Can't find version from file.") return startApplication("qtcreator" + SettingsPath) if not startedWithoutPluginError(): return setKeyboardShortcutForAboutQtC() if platform.system() == 'Darwin': try: waitForObject(":Qt Creator.QtCreator.MenuBar_QMenuBar", 2000) except: nativeMouseClick(waitForObject(":Qt Creator_Core::Internal::MainWindow", 1000), 20, 20, 0, Qt.LeftButton) nativeType("<Ctrl+Alt+a>") # verify qt creator version try: waitForObject(":About Qt Creator_Core::Internal::VersionDialog", 5000) except: test.warning("Using workaround of invoking menu entry " "(known issue when running on Win inside Jenkins)") if platform.system() == "Darwin": invokeMenuItem("Help", "About Qt Creator") else: invokeMenuItem("Help", "About Qt Creator...") waitForObject(":About Qt Creator_Core::Internal::VersionDialog", 5000) actualVersion = getQtCreatorVersionFromDialog() test.compare(actualVersion, expectedVersion, "Verifying version. Current version is '%s', expected version is '%s'" % (actualVersion, expectedVersion)) # close and verify about dialog closed clickButton(waitForObject("{text='Close' type='QPushButton' unnamed='1' visible='1' " "window=':About Qt Creator_Core::Internal::VersionDialog'}")) test.verify(checkIfObjectExists(":About Qt Creator_Core::Internal::VersionDialog", False), "Verifying if About dialog closed.") checkQtCreatorHelpVersion(expectedVersion) # exit qt creator invokeMenuItem("File", "Exit") # verify if qt creator closed properly test.verify(checkIfObjectExists(":Qt Creator_Core::Internal::MainWindow", False), "Verifying if Qt Creator closed.")
class Solution(object): """ A peak element is guaranteed to exist! Use binary search method. Cannot directly apply the XXOO template. A point can have three possible scenarios: (1) ascending (compare to element at right) (2) at peak (3) descending (compare to element at left) """ def peakIndexInMountainArrayIterate(self, A): l, h = 0, len(A) - 1 # the problem was set up such that a peak must exist while True: m = (l + h) // 2 if A[m] > max(A[m + 1], A[m - 1]): return m elif A[m] < A[m + 1]: l = m + 1 elif A[m] < A[m - 1]: h = m - 1 def peakIndexInMountainArray(self, A): """ :type A: List[int] :rtype: int """ def helper(A, l, h): m = (l + h) // 2 if A[m] > max(A[m + 1], A[m - 1]): return m elif A[m] < A[m + 1]: return helper(A, m + 1, h) elif A[m] < A[m - 1]: return helper(A, l, m - 1) return helper(A, 0, len(A) - 1) solver = Solution() ans = solver.peakIndexInMountainArrayIterate([0,1,2,3,0]) print(ans)
""" PythonPackageTemplate Class """ class PythonPackageTemplate: """ PythonPackageTemplate class """ def __init__(self): """ Initialize PythonPackageTemplate. """ pass def __repr__(self): """ Return PythonPackageTemplate name. """ return self.__class__.__name__
a = 1 b = 2 print(a,b) # 1,2 # like JS destructuring a, b = b, a print(a,b) # 2,1
# ASSIGNMENT 1 - C # VOLUME OF SPHERE d=int(input("Enter the diameter : ")) r=d/2 print("-> Radius is {}".format(r)) Vo=(4.0/3.0) 22/7( rrr) print("-> Volume is {}".format(Vo))
#Postal abbreviations to three-character NHGIS state codes state_codes = { 'WA': '530', 'DE': '100', 'DC': '110', 'WI': '550', 'WV': '540', 'HI': '150', 'FL': '120', 'WY': '560', 'PR': '720', 'NJ': '340', 'NM': '350', 'TX': '480', 'LA': '220', 'NC': '370', 'ND': '380', 'NE': '310', 'TN': '470', 'NY': '360', 'PA': '420', 'AK': '020', 'NV': '320', 'NH': '330', 'VA': '510', 'CO': '080', 'CA': '060', 'AL': '010', 'AR': '050', 'VT': '500', 'IL': '170', 'GA': '130', 'IN': '180', 'IA': '190', 'MA': '250', 'AZ': '040', 'ID': '160', 'CT': '090', 'ME': '230', 'MD': '240', 'OK': '400', 'OH': '390', 'UT': '490', 'MO': '290', 'MN': '270', 'MI': '260', 'RI': '440', 'KS': '200', 'MT': '300', 'MS': '280', 'SC': '450', 'KY': '210', 'OR': '410', 'SD': '460', 'PR': '720' }
""" :mod:`papy.util.runtime` ======================== Provides a (possibly shared, but not yet) dictionary. """ def get_runtime(): """ Returns a PAPY_RUNTIME dictionary. """ PAPY_RUNTIME = {} return PAPY_RUNTIME
"""Callables settings ================== Dynamically build smart settings related to django-pipeline, taking into account other settings or installed packages. """ def static_storage(settings_dict): if settings_dict["PIPELINE_ENABLED"]: return "djangofloor.backends.DjangofloorPipelineCachedStorage" return "django.contrib.staticfiles.storage.StaticFilesStorage" static_storage.required_settings = ["PIPELINE_ENABLED"] def pipeline_enabled(settings_dict): return settings_dict["USE_PIPELINE"] and not settings_dict["DEBUG"] pipeline_enabled.required_settings = ["DEBUG", "USE_PIPELINE"]
class SentenceReverser: vowels = ["a","e","i","o","u"] sentence = "" reverse = "" vowelCount = 0 def __init__(self,sentence): self.sentence = sentence self.reverseSentence() def reverseSentence(self): self.reverse = " ".join(reversed(self.sentence.split())) def getVowelCount(self): self.vowelCount = sum(s in self.vowels for s in self.sentence.lower()) return self.vowelCount def getReverse(self): return self.reverse items = [] for i in range(3): reverser = SentenceReverser(input("Enter a sentence :")) items.append(reverser) print(reverser.reverse) print ("Sorted descending vowel count: ") for i in sorted(items,key=lambda item:item.getVowelCount(),reverse=True): print (i.getReverse(),"->",i.getVowelCount())
def fac_of_num(): global num factor = 1 flag = True while flag: flag = False try: num = int(round(float(input("Enter the Number: ")))) if num == 0: print("The Factorial of Zero is One") flag = True else: if num < 0: print("The Number should be Positive") flag = True except ValueError: print("Enter a Valid Input") flag = True if num > 0: for x in range(1, num + 1): factor = factor * x return factor fac = fac_of_num() print("The factorial of", num,"is",fac)
""" Optional routine to calculate the alpha values if they have not been precalculated """ # # Calculate the alphas: # alpha = np.zeros(len(bstart)-1) # alpha_err = np.zeros(len(bstart)-1) # tdel = np.zeros(len(bstart)-1) # for i in range (1,len(bstart)): # #alpha = Fp cbol delta t /fluence # if i == 1: # alpha[i-1]=alpha[i-1]/3. # special for first interval # tdel[i-1] = bstart[i]-bstart[i-1] # else: # alpha[i-1] = (mflux[i-1](bstart[i]-bstart[i-1])86400.00)/(fluen[i-1]1000.0) # tdel[i-1] = bstart[i]-bstart[i-1] # # Correct for missed bursts: # for (j, i) in zip(N_missed, burst_index): # alpha[i] = alpha[i]/j # for i in range (1,len(bstart)): # alpha_err[i-1]=alpha[i-1]math.sqrt(np.mean(bce/bc)2 + np.mean(pfluxe/pflux)2 + (fluene[i-1]/fluen[i-1])**2) # # Not sure what's happening with alpha errors, for now just set alpha_err = 5 # alpha_err = np.empty(len(alpha)) # alpha_err.fill(5.0)
class Signal(): def __init__(self): self.receivers = [] def connect(self, receiver): self.receivers.append(receiver) def emit(self): for receiver in self.receivers: receiver()
# Functions for working with ELB/ALB # Checks whether logging is enabled # For an ALB, load_balancer is an ARN; it's a name for an ELB def check_elb_logging_status(load_balancer, load_balancer_type, boto_session): logging_enabled = False if load_balancer_type == 'ALB': alb_client = boto_session.client("elbv2") try: response = alb_client.describe_load_balancer_attributes( LoadBalancerArn=load_balancer ) except Exception as e: print("Error obtaining attributes for ALB " + load_balancer + " (" + str(e) + ")") if response: # ALB attributes are a key/value list and return a STRING for attrib in response['Attributes']: if attrib['Key'] == 'access_logs.s3.enabled' and attrib['Value'] == 'true': logging_enabled = True elif load_balancer_type == 'ELB': elb_client = boto_session.client('elb') try: response = elb_client.describe_load_balancer_attributes( LoadBalancerName=load_balancer ) except Exception as e: print("Error obtaining attributes for ELB " + load_balancer + " (" + str(e) + ")") if response: # ELB attributes are a set object and return a BOOLEAN logging_enabled = response['LoadBalancerAttributes']['AccessLog']['Enabled'] return logging_enabled # Enable access logging on an ALB/ELB # For an ALB, load_balancer is an ARN; it's a name for an ELB def enable_elb_access_logging(load_balancer, load_balancer_type, bucket, bucket_prefix, boto_session): status = False print("enabling access logs for " + load_balancer + " writing to bucket " + bucket + " prefix " + bucket_prefix) if load_balancer_type == 'ALB': elb_client = boto_session.client('elbv2') try: response = elb_client.modify_load_balancer_attributes( LoadBalancerArn=load_balancer, Attributes=[ { 'Key': 'access_logs.s3.enabled', 'Value': 'true' }, { 'Key': 'access_logs.s3.bucket', 'Value': bucket }, { 'Key': 'access_logs.s3.prefix', 'Value': bucket_prefix } ] ) # We don't care about the response and it will except if there's any issue status = True except Exception as e: print("Error setting attributes for ALB " + load_balancer + " (" + str(e) + ")") status = False elif load_balancer_type == 'ELB': elb_client = boto_session.client('elb') try: response = elb_client.modify_load_balancer_attributes( LoadBalancerAttributes={ 'AccessLog': { 'Enabled': True, 'S3BucketName': bucket, 'EmitInterval': 5, 'S3BucketPrefix': bucket_prefix }, }, LoadBalancerName=load_balancer, ) if response: if response['ResponseMetadata']['HTTPStatusCode'] == 200: status = True except Exception as e: print("Error setting attributes for ELB " + load_balancer + " (" + str(e) + ")") status = False return status # Given a target group, find the ALB it is attached to def lookup_alb_arn(target_group_arn, boto_session): print("Looking up LB arn for target group " + target_group_arn) alb_client = boto_session.client("elbv2") alb_arn = None # This whole process kinda violates the schema since a target group can be associated with # multiple ALBs. However, in our case that's not the case try: response = alb_client.describe_target_groups( TargetGroupArns=[ target_group_arn ], ) except Exception as e: print("Error obtaining info for target group " + target_group_arn + " (" + str(e) + ")") if response: # get ARN of the first load balancer for this target group alb_arn = response['TargetGroups'][0]['LoadBalancerArns'][0] print("ALB arn determined to be " + alb_arn) return alb_arn
load( "//:versions.bzl", "SPEC_VERSION", "BIOGRAPH_VERSION", "SEQSET_VERSION", ) VERSION_TABLE = { "SPEC_VERSION": SPEC_VERSION, "BIOGRAPH_VERSION": BIOGRAPH_VERSION, "SEQSET_VERSION": SEQSET_VERSION, } def make_version_h(name, out_file): """Generates a .h file containing #defines for all the versions in VERSION_TABLE.""" cmd = """( echo '#pragma once' """ for version_id, version in VERSION_TABLE.items(): cmd = cmd + "echo '#define " + version_id + " \"" + version + "\"'\n" cmd = cmd + """ ) > $@""" native.genrule(name=name, outs=[out_file], cmd=cmd) def make_version_py(name, out_file): """Generates a .py file containing version definitions for all the versions in VERSION_TABLE.""" cmd = "(" for version_id, version in VERSION_TABLE.items(): cmd = cmd + "echo '" + version_id + "=\"" + version + "\"'\n" cmd = cmd + ") > $@" native.genrule(name=name, outs=[out_file], cmd=cmd)
WINDOW_SIZE = 3 def window(lines, start): if start > len(lines) - WINDOW_SIZE: return None return int(lines[start]), int(lines[start+1]), int(lines[start+2]) with open("data/input1.txt") as f: lines = f.readlines() end_idx = len(lines) - WINDOW_SIZE + 1 last_sum = None larger_count = 0 for i in range(0, end_idx): nums = window(lines, i) this_sum = sum(nums) if last_sum is None: last_sum = this_sum continue if this_sum > last_sum: larger_count += 1 last_sum = this_sum print(larger_count)
def main(): formatters = {"plain": plain, "bold": bold, "italic": italic, "header": header, "link": link, "inline-code": inline_code, "ordered-list": make_list, "unordered-list": make_list, "new-line": new_line} stored_string = "" while True: user_input = input("- Choose a formatter: ").lower() if user_input == "!help": print("Available formatters: plain bold italic header link " "inline-code ordered-list unordered-list new-line") print("Special commands: !help !done") elif user_input in formatters.keys(): if user_input in ["ordered-list", "unordered-list"]: stored_string += formatters[user_input](user_input) print(stored_string) else: stored_string += formatters[user_input]() print(stored_string) elif user_input == "!done": conv_string_file(stored_string) exit() else: print("Unknown formatting type or command. Please try again.") def plain(): text_input = input("- Text: ") return text_input def bold(): text_input = input("- Text: ") return "" + text_input + "" def italic(): text_input = input("- Text: ") return "" + text_input + "" def header(): while True: try: title_level = int(input('Level: ')) if title_level in range(1, 7): break print('The level should be within the range of 1 to 6') except ValueError: print(ValueError) pass title_input = input("- Text: ") return "#" * title_level + " " + title_input + "\n" def link(): input_label = input("- Label: ") input_url = input("- URL: ") return "[" + input_label + "]" + "(" + input_url + ")" def inline_code(): text_input = input("- Text: ") return "`" + text_input + "`" # function for ordered-list & unordered-list formatters def make_list(user_input): list_string = "" while True: try: rows = int(input("- Number of rows: ")) if rows >= 1: break print("The number of rows should be greater than zero") except ValueError: print("Please enter a valid number of rows") pass for r in range(1, rows + 1): if user_input == "ordered-list": list_string += f"{r}. " + input(f"- Row #{r}: ") + "\n" else: list_string += "* " + input(f"- Row #{r}: ") + "\n" return list_string def new_line(): return "\n" def conv_string_file(text): f = open('output.md', 'w+') f.write(text) f.close() if __name__ == '__main__': main()
""" Function to define special tokens (ie : CTRL code) and update the model and tokenizer """ def add_special_tokens(model=None, tokenizer=None): """ update in place the model and tokenizer to take into account special tokens :param model: GPT2 model from huggingface :param tokenizer: GPT2 tokenizer from huggingface """ if tokenizer: tokenizer.add_special_tokens( {'bos_token': '[P2]', 'additional_special_tokens': ['[P1]', '[P3]', '[S]', '[M]', '[L]', '[T]', '[Sum]', '[Loc]', '[Per]', '[Org]', '[Misc]']} ) tokenizer.pad_token = tokenizer.eos_token if model: model.resize_token_embeddings(len(tokenizer))
# # PySNMP MIB module ChrComPmSonetSNT-L-Day-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/ChrComPmSonetSNT-L-Day-MIB # Produced by pysmi-0.3.4 at Wed May 1 12:35:58 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # Integer, ObjectIdentifier, OctetString = mibBuilder.importSymbols("ASN1", "Integer", "ObjectIdentifier", "OctetString") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ConstraintsIntersection, ValueSizeConstraint, ValueRangeConstraint, ConstraintsUnion, SingleValueConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ConstraintsIntersection", "ValueSizeConstraint", "ValueRangeConstraint", "ConstraintsUnion", "SingleValueConstraint") chrComIfifIndex, = mibBuilder.importSymbols("ChrComIfifTable-MIB", "chrComIfifIndex") TruthValue, = mibBuilder.importSymbols("ChrTyp-MIB", "TruthValue") chrComPmSonet, = mibBuilder.importSymbols("Chromatis-MIB", "chrComPmSonet") ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup") ObjectIdentity, Counter64, ModuleIdentity, IpAddress, NotificationType, Bits, MibIdentifier, TimeTicks, Unsigned32, Integer32, Gauge32, Counter32, MibScalar, MibTable, MibTableRow, MibTableColumn, iso = mibBuilder.importSymbols("SNMPv2-SMI", "ObjectIdentity", "Counter64", "ModuleIdentity", "IpAddress", "NotificationType", "Bits", "MibIdentifier", "TimeTicks", "Unsigned32", "Integer32", "Gauge32", "Counter32", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "iso") TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString") chrComPmSonetSNT_L_DayTable = MibTable((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6), ).setLabel("chrComPmSonetSNT-L-DayTable") if mibBuilder.loadTexts: chrComPmSonetSNT_L_DayTable.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetSNT_L_DayTable.setDescription('') chrComPmSonetSNT_L_DayEntry = MibTableRow((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1), ).setLabel("chrComPmSonetSNT-L-DayEntry").setIndexNames((0, "ChrComIfifTable-MIB", "chrComIfifIndex"), (0, "ChrComPmSonetSNT-L-Day-MIB", "chrComPmSonetDayNumber")) if mibBuilder.loadTexts: chrComPmSonetSNT_L_DayEntry.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetSNT_L_DayEntry.setDescription('') chrComPmSonetDayNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 1), Unsigned32().subtype(subtypeSpec=ValueRangeConstraint(1, 2))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetDayNumber.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetDayNumber.setDescription('') chrComPmSonetSuspectedInterval = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 2), TruthValue()).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetSuspectedInterval.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetSuspectedInterval.setDescription('') chrComPmSonetElapsedTime = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 3), Unsigned32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetElapsedTime.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetElapsedTime.setDescription('') chrComPmSonetSuppressedIntrvls = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 4), Gauge32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetSuppressedIntrvls.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetSuppressedIntrvls.setDescription('') chrComPmSonetES = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 5), Gauge32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetES.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetES.setDescription('') chrComPmSonetSES = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 6), Gauge32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetSES.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetSES.setDescription('') chrComPmSonetCV = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 7), Gauge32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetCV.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetCV.setDescription('') chrComPmSonetUAS = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 8), Gauge32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetUAS.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetUAS.setDescription('') chrComPmSonetThresholdProfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 9), Unsigned32().subtype(subtypeSpec=ValueRangeConstraint(0, 4294967295))).setMaxAccess("readonly") if mibBuilder.loadTexts: chrComPmSonetThresholdProfIndex.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetThresholdProfIndex.setDescription('') chrComPmSonetResetPmCountersAction = MibTableColumn((1, 3, 6, 1, 4, 1, 3695, 1, 10, 2, 6, 1, 10), TruthValue()).setMaxAccess("readwrite") if mibBuilder.loadTexts: chrComPmSonetResetPmCountersAction.setStatus('current') if mibBuilder.loadTexts: chrComPmSonetResetPmCountersAction.setDescription('') mibBuilder.exportSymbols("ChrComPmSonetSNT-L-Day-MIB", chrComPmSonetES=chrComPmSonetES, chrComPmSonetThresholdProfIndex=chrComPmSonetThresholdProfIndex, chrComPmSonetSNT_L_DayEntry=chrComPmSonetSNT_L_DayEntry, chrComPmSonetSuspectedInterval=chrComPmSonetSuspectedInterval, chrComPmSonetSES=chrComPmSonetSES, chrComPmSonetCV=chrComPmSonetCV, chrComPmSonetUAS=chrComPmSonetUAS, chrComPmSonetElapsedTime=chrComPmSonetElapsedTime, chrComPmSonetResetPmCountersAction=chrComPmSonetResetPmCountersAction, chrComPmSonetDayNumber=chrComPmSonetDayNumber, chrComPmSonetSuppressedIntrvls=chrComPmSonetSuppressedIntrvls, chrComPmSonetSNT_L_DayTable=chrComPmSonetSNT_L_DayTable)
class Show(object): def __init__(self, drawable): self.drawable = drawable def next_frame(self): self.drawable.show() return False
# -- coding: utf-8 -- # Copyright (c) 2015 Fredrik Eriksson <[email protected]> # This file is covered by the BSD-3-Clause license, read LICENSE for details. CMD_PWR_ON="poweron" CMD_PWR_OFF="poweroff" CMD_PWR_QUERY="powerquery" CMD_SRC_QUERY="sourcequery" CMD_SRC_SET="sourceset" CMD_BRT_QUERY="brightnessquery" CMD_BRT_SET="brightnessset"

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