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MilesCranmer
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Parent(s):
82e182e
Update todo
Browse files- README.md +15 -13
- eureqa.jl +2 -2
- paralleleureqa.jl +1 -1
README.md
CHANGED
@@ -43,10 +43,11 @@ const binops = [plus, mult, pow]
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You can change the dataset here:
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```julia
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const X = convert(Array{Float32, 2}, randn(100, 5)*2)
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# Here is the function we want to learn (x2^2 + cos(x3))
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const y = convert(Array{Float32, 1}, ((cx,)->cx^2).(X[:, 2]) + cos.(X[:, 3]))
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```
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by either loading in a dataset, or modifying the definition of `y`.
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### Hyperparameters
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@@ -66,27 +67,23 @@ const alpha = 10.0
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```
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Larger alpha means more exploration.
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One can also adjust the relative probabilities of each
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```julia
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weights = [8, 1, 1, 1, 2]
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```
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(for: 1. perturb constant, 2. mutate operator,
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3. append a node, 4. delete a subtree, 5.
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# TODO
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- [ ] Create a Python interface
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- [x] Create a benchmark for speed
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- [ ] Create a benchmark for accuracy
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- [x] Record hall of fame
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- [x] Optionally (with hyperparameter) migrate the hall of fame, rather than current bests
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- [x] Test performance of reduced precision integers
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- No effect
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- [ ] Create struct to pass through all hyperparameters, instead of treating as constants
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- Make sure doesn't affect performance
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- [ ] Hyperparameter tune
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- [ ] Simplify subtrees with only constants beneath them. Or should I? Maybe randomly simplify sometimes?
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- [ ] Use NN to generate weights over all probability distribution, and train on some randomly-generated equations
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- [ ] Performance:
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- [ ] Use an enum for functions instead of storing them?
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@@ -95,4 +92,9 @@ weights = [8, 1, 1, 1, 2]
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- Seems like its necessary right now. But still by far the slowest option.
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- [ ] Calculating the loss function - there is duplicate calculations happening.
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- [ ] Declaration of the weights array every iteration
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-
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You can change the dataset here:
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```julia
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const X = convert(Array{Float32, 2}, randn(100, 5)*2)
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+
# Here is the function we want to learn (x2^2 + cos(x3) - 5)
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+
const y = convert(Array{Float32, 1}, ((cx,)->cx^2).(X[:, 2]) + cos.(X[:, 3]) .- 5)
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```
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by either loading in a dataset, or modifying the definition of `y`.
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+
(The `.` are are used for vectorization of a scalar function)
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### Hyperparameters
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```
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Larger alpha means more exploration.
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+
One can also adjust the relative probabilities of each operation here:
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```julia
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+
weights = [8, 1, 1, 1, 0.1, 2]
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```
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(for: 1. perturb constant, 2. mutate operator,
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3. append a node, 4. delete a subtree, 5. simplify equation,
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6. do nothing).
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# TODO
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- [ ] Explicit constant operation on hall-of-fame
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- [ ] Hyperparameter tune
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- [ ] Create a Python interface
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- [ ] Create a benchmark for accuracy
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- [ ] Create struct to pass through all hyperparameters, instead of treating as constants
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- Make sure doesn't affect performance
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- [ ] Use NN to generate weights over all probability distribution, and train on some randomly-generated equations
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- [ ] Performance:
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- [ ] Use an enum for functions instead of storing them?
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- Seems like its necessary right now. But still by far the slowest option.
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- [ ] Calculating the loss function - there is duplicate calculations happening.
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- [ ] Declaration of the weights array every iteration
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+
- [x] Create a benchmark for speed
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+
- [x] Simplify subtrees with only constants beneath them. Or should I? Maybe randomly simplify sometimes?
|
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+
- [x] Record hall of fame
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+
- [x] Optionally (with hyperparameter) migrate the hall of fame, rather than current bests
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+
- [x] Test performance of reduced precision integers
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- No effect
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eureqa.jl
CHANGED
@@ -17,7 +17,7 @@ const ns=10;
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##########################
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# # Dataset to learn
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const X = convert(Array{Float32, 2}, randn(100, 5)*2)
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const y = convert(Array{Float32, 1}, ((cx,)->cx^2).(X[:, 2]) + cos.(X[:, 3]))
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##########################
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##################
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@@ -364,7 +364,7 @@ function iterate(
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mutationChoice = rand()
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weight_for_constant = min(8, countConstants(tree))
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weights = [weight_for_constant, 1, 1, 1, 1, 2] .* 1.0
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weights /= sum(weights)
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cweights = cumsum(weights)
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n = countNodes(tree)
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##########################
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# # Dataset to learn
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const X = convert(Array{Float32, 2}, randn(100, 5)*2)
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const y = convert(Array{Float32, 1}, ((cx,)->cx^2).(X[:, 2]) + cos.(X[:, 3]) .- 5)
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##########################
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##################
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mutationChoice = rand()
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weight_for_constant = min(8, countConstants(tree))
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weights = [weight_for_constant, 1, 1, 1, 0.1, 2] .* 1.0
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weights /= sum(weights)
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cweights = cumsum(weights)
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n = countNodes(tree)
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paralleleureqa.jl
CHANGED
@@ -3,7 +3,7 @@ include("eureqa.jl")
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const nthreads = Threads.nthreads()
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const migration = true
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const hofMigration = true
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const fractionReplacedHof = 0.
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# List of the best members seen all time
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mutable struct HallOfFame
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const nthreads = Threads.nthreads()
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const migration = true
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const hofMigration = true
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const fractionReplacedHof = 0.1f0
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# List of the best members seen all time
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mutable struct HallOfFame
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