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IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
Vdd2 F — Operating frequency means the speed of digital design. Cload — capacitance. We can say ‘bigger the chip, bigger the capacitance.’ Vdd2 — supply voltage of the chip Key causes of power dissipation Shrinking transistors have always underscored theoretical predictions in terms of power, more | medium | 520 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
so because transistors or gates no longer dominate power consumption in chips. Leakage power also increases as feature size decreases. Interconnect metal wire width. As the metal width shrinks it leads to the consumption of more switching power. Faster processing speeds. This causes more switching | medium | 521 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
and hence more power consumption occurs in charging and discharging. The high die temperature is one of the reasons for higher power consumption. It reduces the battery life. Chip designers trade-off between performance, power, and area (PPA), prioritizing one over the other to meet the spec. For a | medium | 522 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
long time, it has been performance first and then the area; power optimization has been left for implementation techniques to optimize. Reducing usage of low VT gates (high leakage), smart clock gating insertion, and vector-based dynamic power reduction are a few techniques in implementation, with | medium | 523 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
zero or minimal changes to design. Usage of UPF/CPF — power formats that allow certain parts of the design to be dynamically switched off during non-operation — are more advanced techniques which require the involvement of a number of team members, from architects to implementation engineers. This | medium | 524 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
is one step closer to where ASIC designs are built with power in mind first, while performance and area are taken into consideration after that. Moore’s law still holds true to a great extent after 50 years, only that number of transistors doubling in the same area is taking slightly longer than 2 | medium | 525 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
years. This is partly because of the new challenges posed by complex technology nodes as well as holistic power reduction techniques. We can’t further reduce power consumption with technology nodes, “One of the big limiting factors is that a designer, especially a digital designer, has a very good | medium | 526 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
intuitive feel for performance and for area impact, silicon impact, but the gut instinct isn’t exactly there for power,” Pursley says. The supply voltage of chips is continuously reduced with lower technology node in order to reduce power consumption. As a result, there are very low noise and | medium | 527 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
variation margins. At the same time, the IR drop is increased due to higher interconnect resistance. Due to the IR drop, chip temperature increases and it affects reliability the most. Low-power design flows need to specify the desired power architecture to be used at each major step of design | medium | 528 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
implementation flow. Traditional implementation flows have failed to address the additional considerations for incorporating advanced low-power techniques. Consequently, designers often resorted to methodologies that were not very user-friendly and flexible. These methodologies required the | medium | 529 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
designer to manually model the impact of low-power during simulation, and provide multiple definitions for the same information: one set for technology synthesis, one for arranging logic gates, one for verifying the functionality of chip design, one for checking ASIC physical connectivity, one for | medium | 530 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
IR drop and yet another one for equivalency checking. Yet after all that manual work, there was no guarantee of any consistency. Due to this, the risk is increased for manufacturing chips. Manual work increases the chip design cycle time and hence the time to market is increased for the product. | medium | 531 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
Also, designers were unsure about what they made in theory and what was implemented practically. This led to an overall negative impact on the quality of results. In order to help designers to adopt advanced power reduction techniques, a standard power format is developed. Hence, with improved | medium | 532 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
quality of silicon through easy-to-use “what-if” exploration early in the flow, designers can identify the optimal power architecture to achieve the desired specifications. EDA (Electronic Design Automation) companies have started making tool algorithm in a way that helps in optimizing the design | medium | 533 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
for the three required parameters concurrently. In addition, by reducing the number of iterations within the flow and limiting silicon re-spins, design teams can predictably address time-to-market concerns. Also, designers have made low power implantation semi-custom by making low-power modules | medium | 534 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
ready to use. Very effective and robust methodologies were developed for verifying these modules as well as the entire design so that the risk and ASIC chip design cycle time has been reduced significantly. So have we hit the limit in low-power consumption yet? In the words of Torsten Reich, group | medium | 535 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
manager for integrated sensor electronics at Fraunhofer Institute of Integrated Circuits: “Certainly not. R&D will find ways to step further.” In conclusion, there have been considerable changes as PPA tradeoff has evolved over time. Designers have realized the need of the hour and have accepted | medium | 536 |
IoT, Fpga, Physical Design, Semiconductor Electronic, Low Power.
new ways of design, starting at architecture. This has been supported by the development of corresponding power standards and EDA tools which incorporates power requirements throughout the design and signoff flow. This blog is originally published at eInfochips. | medium | 537 |
Cannabis, Cannabis Medical, Cannabis Industry.
Illustration: DALL-E / mg Magazine Cannabis is an incredible plant that can be grown in a tiny pot or spread freely across mountains in the wild. Over the years, cultivation methods have evolved to meet the needs of different microclimates, yield quotas, and sustainability imperatives. My company | medium | 538 |
Cannabis, Cannabis Medical, Cannabis Industry.
uses aeroponic methods instead of soil or hydroponics, and they’re helping us reach our sustainability goals. Although many cultivators start clones aeroponically, full-life-cycle aeroponic cultivation at scale is not all that common. Consequently, we often find ourselves fielding questions about | medium | 539 |
Cannabis, Cannabis Medical, Cannabis Industry.
how the method works, because at first it doesn’t seem to make sense. How does one grow plants with just air and no soil? The answer to that question is both simple and complex. Let’s start with the simpler side. While traditional cultivation uses well-draining, slightly acidic, and nutrient-rich | medium | 540 |
Cannabis, Cannabis Medical, Cannabis Industry.
soil as the substrate for growing plants, aeroponic and hydroponic cultivation methods utilize soil-free mediums such as coco coir, perlite, or vermiculite. Our medium of choice is reusable expanded clay pebbles, because they’re long-lasting, provide good airflow and drainage, and are | medium | 541 |
Cannabis, Cannabis Medical, Cannabis Industry.
environmentally conscious. Photo: Aeriz What is aeroponic cultivation? Aeroponic cultivation involves suspending plants in the air and misting their roots with a nutrient solution. The method is not to be confused with hydroponic cultivation, which involves submerging plants in (or providing a | medium | 542 |
Cannabis, Cannabis Medical, Cannabis Industry.
sporadic flow of) a solution of water and nutrients. Otherwise, hydroponic and aeroponic cultivation methods are quite similar. In fact, we wouldn’t have aeroponics if it weren’t for the innovations hydroponic growers pioneered. Both methods allow cultivators significant control over how the plants | medium | 543 |
Cannabis, Cannabis Medical, Cannabis Industry.
in their care mature and can lead to fewer diseases and pests than are found in soil-based environments. Aeroponic benefits But aeroponic growing provides other benefits, too. Perhaps the most notable is a reduction in environmental impact. A study published in the Journal of Cannabis Research | medium | 544 |
Cannabis, Cannabis Medical, Cannabis Industry.
found sungrown “cannabis in a growing season needs twice as much as the water required by maize, soybeans, and wheat.” The study noted outdoor grows apply as much as five and one-half gallons of water per plant per day at the height of growing season. A separate study by the University of Nevada, | medium | 545 |
Cannabis, Cannabis Medical, Cannabis Industry.
Reno, College of Agriculture, Biotechnology & Natural Resources found hydroponic techniques can reduce water usage by as much as 90 percent. But because aeroponic systems are airtight, mist plants’ roots precisely as needed, and recycle the water the roots don’t absorb (creating minimal runoff), | medium | 546 |
Cannabis, Cannabis Medical, Cannabis Industry.
water requirements can be even lower than with hydroponics. According to a study published in Digital Agritechnology in 2022, aeroponic agricultural operations consume up to 70 percent less water than hydroponic operations. Aeroponic systems provide more efficient nutrient management, as well. | medium | 547 |
Cannabis, Cannabis Medical, Cannabis Industry.
Hydroponic systems that submerge plants in water require regular oxygen monitoring and maintenance to ensure the plants don’t suffocate. This risk doesn’t exist with aeroponic techniques, because the roots are exposed to air at all times. Aeroponic systems also lower the risk of developing diseases | medium | 548 |
Cannabis, Cannabis Medical, Cannabis Industry.
or attracting pests. Hydroponic growing methods significantly reduce the risk of many common diseases when compared to soil cultivation, but the risk remains higher than with aeroponic methods because ventilation systems used to control humidity in hydroponic grow rooms let in air — and potentially | medium | 549 |
Cannabis, Cannabis Medical, Cannabis Industry.
foreign organisms — from the outside. Our grow runs on a closed-loop system, meaning all the water and nutrients are recycled to minimize waste, no outside air makes its way in, and the canopy is protected from humidity created by the misters. By the end of our harvest, we have virtually no waste, | medium | 550 |
Cannabis, Cannabis Medical, Cannabis Industry.
because we reuse the net pots and clay pebbles. The major benefit of our closed-loop aeroponic system is that we can work out exactly what our plants need and give it to them without ever overdoing anything. We’re not putting water into the soil, where the excess would go to waste. Instead, we mist | medium | 551 |
Cannabis, Cannabis Medical, Cannabis Industry.
our plants with the exact amount of water and nutrients they need to thrive, and anything the plants don’t drink gets put right back into the system to mist again later. Aeroponic drawbacks Despite their advantages, aeroponic systems aren’t perfect. They’re expensive to establish, labor-intensive, | medium | 552 |
Cannabis, Cannabis Medical, Cannabis Industry.
and require a good deal of technical expertise to maintain. Systems must be redundant in case of power outages or equipment malfunction, because dry roots quickly die. And even though healthy roots constantly are exposed to air, if you’re not careful they can develop rot or mold. Still, we’ve found | medium | 553 |
Cannabis, Cannabis Medical, Cannabis Industry.
aeroponic growing rewarding, especially from an environmental perspective. Since 2015, we’ve grown more than 94,000 plants, 328,000 feet of roots, and 110 strains, all while saving more than 288,000 pounds of soil. The market responds well to companies making greener choices, too. Many consumers | medium | 554 |
Cannabis, Cannabis Medical, Cannabis Industry.
are environmentally conscious, and more of them than ever are trying to make sustainable choices. This gives mindful companies a competitive advantage and is pushing the entire industry to be more eco-friendly. Conclusion Let’s face it: Minimizing waste and improving sustainability aren’t optional | medium | 555 |
Cannabis, Cannabis Medical, Cannabis Industry.
in an industry that promotes itself as a more health-conscious option to pharmaceuticals, alcohol, and tobacco. Cultivation is the bedrock of our industry, and growers have an opportunity to be leaders in sustainability. The planet is at a critical tipping point, with major environmental concerns | medium | 556 |
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trial is constant and equal to p. Photo Credit: Intrinsic Value Motivation In order to estimate the Probability to Default of a company from its bond price, I chose to use Monte Carlo simulation and the Bernoulli distribution. Monte Carlo simulations is an amazing way to take care of uncertainty in | medium | 561 |
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our models. Discrete vs. Continuous Distributions Probability distributions are either discrete or continuous. Discrete probability distributions describe distinct values, usually integers, with no intermediate values and are shown as a series of vertical bars. A discrete distribution, for example, | medium | 562 |
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might describe the number of heads in four flips of a coin as 0, 1, 2, 3, or 4. Continuous distributions are actually mathematical abstractions because they assume the existence of every possible intermediate value between two numbers. That is, a continuous distribution assumes there is an infinite | medium | 563 |
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building block of other more complex distributions. For instance: Binomial distribution: a Bernoulli distribution with higher number of n total trials that computes the probability of x successes within this total number of trials. Geometric distribution: a Bernoulli distribution with higher number | medium | 566 |
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values for the model. As all those scenarios produce associated results in a model, each scenario can have a forecast. Forecasts are events (usually with formulas or functions) that you define as important outputs of the model. These usually are events such as totals, net profit, or gross expenses. | medium | 573 |
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Simplistically, think of the Monte Carlo simulation approach as repeatedly picking golf balls out of a large basket with replacement. The size and shape of the basket depend on the distributional input assumption (e.g., a normal distribution with a mean of 100 and a standard deviation of 10, versus | medium | 574 |
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in tandem, while other times the balls are bouncing independent of one another. The balls are picked each time from these interactions within the model (the large central basket) are tabulated and recorded, providing a forecast output result of the simulation. With Monte Carlo simulation, the model | medium | 577 |
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spreadsheet model. The following sections provide a understanding of discrete and continuous probability distributions that can be used in Monte Carlo simulation. Probability to Default (PD) The likelihood of default by a company on its debt obligations may be predicted from the prices of bonds. It | medium | 579 |
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bond has to pay the principal of 100 agorot (the Israeli currency, the Israeli new shekel (ILS), is divided into 100 agorot) on September 23, 2024. The bondholder is also entitled to an annual coupon of 4.2%. So, the bond has a time-to-maturity of 1 year from today. The bond has a yield-to-maturity | medium | 584 |
.
20)) P20 = "{:.0%}".format(0.20) Per25 = "{:,.4f}".format(np.percentile(V, 25)) P25 = "{:.0%}".format(0.25) Per30 = "{:,.4f}".format(np.percentile(V, 30)) P30 = "{:.0%}".format(0.30) Per35 = "{:,.4f}".format(np.percentile(V, 35)) P35 = "{:.0%}".format(0.35) Per40 = "{:,.4f}".format(np.percentile(V, | medium | 599 |
.
40)) P40 = "{:.0%}".format(0.40) Per45 = "{:,.4f}".format(np.percentile(V, 45)) P45 = "{:.0%}".format(0.45) Per50 = "{:,.4f}".format(np.percentile(V, 50)) P50 = "{:.0%}".format(0.50) Per55 = "{:,.4f}".format(np.percentile(V, 55)) P55 = "{:.0%}".format(0.55) Per60 = "{:,.4f}".format(np.percentile(V, | medium | 600 |
.
60)) P60 = "{:.0%}".format(0.60) Per65 = "{:,.4f}".format(np.percentile(V, 65)) P65 = "{:.0%}".format(0.65) Per70 = "{:,.4f}".format(np.percentile(V, 70)) P70 = "{:.0%}".format(0.70) Per75 = "{:,.4f}".format(np.percentile(V, 75)) P75 = "{:.0%}".format(0.75) Per80 = "{:,.4f}".format(np.percentile(V, | medium | 601 |
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================================================") print("\033[1m Performed By:","\033[0mRoi Polanitzer") print("\033[1m Date:","\033[0m",calendar.day_name[curr_date.weekday()],",",today.strftime("%B %d, %Y"),",",now.strftime("%H:%M:%S AM")) st Let’s analyze the statistics for the estimated default | medium | 608 |
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simulation of risk factors according to an assumed probability distribution and then calculates the default probability for each simulation separately. The average value of the default probability is referred as the estimated value of the default probability. Standard error of sample mean typically | medium | 616 |
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Polanitzer’s professional recognitions include being designated a Financial Risk Manager (FRM) by the Global Association of Risk Professionals (GARP), a Certified Risk Manager (CRM) by the Israel Association of Risk Managers (IARM), as well as being designated a Python Data Analyst (PDA), a Machine | medium | 628 |
Entrepreneurship, Entrepreneurial Mindset.
Often viewed as a path reserved for the fearless and visionary, entrepreneurship has long been a subject of debate: is it an innate ability, a trait embedded in one’s DNA, or is it a skill to be learned and honed over time? The answer lies in a complex interplay of both intrinsic qualities and | medium | 632 |
Entrepreneurship, Entrepreneurial Mindset.
learned skills. To discern whether entrepreneurship is your calling, it’s crucial to introspect and evaluate certain key aspects. Consider your natural tendencies. Do you find yourself constantly brimming with ideas, looking at problems as opportunities for solutions? Entrepreneurs often have an | medium | 633 |
Entrepreneurship, Entrepreneurial Mindset.
intuitive knack for innovation and a restlessness for the status quo. This instinctive trait drives them to envision and create. They are naturally curious, always questioning and not satisfied with easy answers. If you find yourself constantly exploring new ideas and seeking out challenges, | medium | 634 |
Entrepreneurship, Entrepreneurial Mindset.
entrepreneurship might be in your blood. Moreover, effective entrepreneurs often possess an innate resilience. The road of entrepreneurship is fraught with challenges and setbacks. Those who have a natural resilience can better withstand these hurdles. They possess a unique blend of optimism and | medium | 635 |
Entrepreneurship, Entrepreneurial Mindset.
realism that allows them to persist in the face of failure and learn from their mistakes. If you often find yourself undeterred by failure and capable of bouncing back stronger, this might be a sign that entrepreneurship aligns with your inherent traits. However, it’s important to note that while | medium | 636 |
Entrepreneurship, Entrepreneurial Mindset.
certain entrepreneurial traits might be instinctive, many essential skills can be learned. Entrepreneurship also involves a set of technical skills like financial literacy, marketing, and strategic planning. These are not inherent and can be acquired through education and experience. If you have a | medium | 637 |
Entrepreneurship, Entrepreneurial Mindset.
passion for entrepreneurship but don’t feel you have all the necessary skills, it’s never too late to learn. Many successful entrepreneurs started without a full skill set but were willing to learn and adapt. Additionally, success in entrepreneurship is often about timing and context. Understanding | medium | 638 |
Entrepreneurship, Entrepreneurial Mindset.
the market and identifying the right moment to launch a business is crucial. This sense of timing can be partly instinctive but is largely gained through experience and study. Knowing your industry and keeping abreast of trends is a learned skill critical to entrepreneurial success. To determine if | medium | 639 |
Entrepreneurship, Entrepreneurial Mindset.
you should pursue entrepreneurship, assess your comfort with uncertainty and risk. Entrepreneurs often operate in environments of high uncertainty. If you thrive in such settings and are comfortable making decisions with incomplete information, this trait may indicate a natural inclination towards | medium | 640 |
Entrepreneurship, Entrepreneurial Mindset.
entrepreneurship. Finally, consider your motivation. Are you driven by the desire to create, to lead, to innovate? Entrepreneurs are often fueled by a deep-seated passion that goes beyond the desire for financial success. This passion can be a mix of an inherent trait and a developed mindset. In | medium | 641 |
Entrepreneurship, Entrepreneurial Mindset.
conclusion, while certain aspects of entrepreneurship may be instinctive, like resilience, innovative thinking, and comfort with uncertainty, other critical aspects, such as industry knowledge, business skills, and strategic planning, can be learned. To know if entrepreneurship is right for you, | medium | 642 |
Entrepreneurship, Entrepreneurial Mindset.
reflect on your natural tendencies, willingness to learn, and your underlying motivations. Remember, the path of entrepreneurship is as unique as the individual pursuing it, combining both innate qualities and acquired skills. Make it a great day. Make it happen. Make it count! | medium | 643 |
News, France, War, History, Marketing.
La convergence des tensions: 2024, année charnière ? Du 26 juillet au 11 août, la France s’apprête à organiser des Jeux Olympiques sur son sol, qu’elle n’est pas capable de sécuriser et d’encadrer correctement. Niant la réalité de l’insécurité rampante dans le pays, le gouvernement se prépare à | medium | 644 |
News, France, War, History, Marketing.
recevoir des centaines de milliers de touristes. Déployant l’équivalent d’une division (environ 10 000 hommes) en île de France et dans les autres villes où se tiendront les jeux, la France suit les pas des pays sud-américains totalitaires et tiers-mondisés, incapables d’assurer la sécurité sans | medium | 645 |
News, France, War, History, Marketing.
déployer l’armée partout, pour faire le boulot des forces de sécurité intérieure (police). Cela ne sera pas sans conséquences. De plus, la France tient actuellement pour ennemis jurés (désignés initialement par l’Occident, et qui ont soit fait le deuil de leur rapprochement, soient vouent une haine | medium | 646 |
News, France, War, History, Marketing.
viscérale à l’Occident et ses valeurs), des pays comme la Russie, la Turquie et l’Iran, dont la participation à la déstabilisation du pays dans le passé, sont connus. La situation ne cesse d’empirer, et il est dans l’intérêt de ces pays d’exacerber tous les problèmes inévitables, qui surviendront | medium | 647 |
News, France, War, History, Marketing.
lors de ces jeux. 2. Le gouvernement vient de faire passer l’IVG dans la constitution. C’est très grave. Je citerai ici tout simplement les propos de Philippe de Villiers sur le sujet: C’est la fin de la clause de conscience pour les médecins et le personnel de santé. C’est un viol de conviction | medium | 648 |
News, France, War, History, Marketing.
intime, c’est la fin du serment d’Hippocrate : “Tu ne tueras pas.” C’est la fin de la liberté d’expression. En 50 ans, on sera passé de la dépénalisation de l’#avortement à la pénalisation de la parole de vie. Toute parole, toute action, pour défendre l’enfant à naître ou pour contredire la | medium | 649 |
News, France, War, History, Marketing.
#Constitution, c’est-à-dire l’avortement, sera passible d’une peine judiciaire. C’est la porte ouverte à la dérive eugéniste : en fonction du génome, est éliminé le plus faible. C’est le passeport de toutes les transgressions : la vie n’est plus un absolu. C’est la course à l’abîme d’une | medium | 650 |
News, France, War, History, Marketing.
civilisation en perdition, c’est la déshumanisation progressive du monde par l’effacement programmé du visage de l’Homme. L’Occident, avec en tête de file, la France (car c’est la puissance décisionnelle et leader en Europe, avec l’Allemagne, la Grande-Bretagne s’étant définitivement rangée du côté | medium | 651 |
News, France, War, History, Marketing.
des vassaux utiles des Etats-Unis (brexit), et les EU tirant depuis toujours les ficelles de loin), persiste et signe dans le grand suicide démographique qui touche particulièrement l’Europe. Les vecteurs de cette crise sont: l’idéologie woke, la destruction lente et méthodique (et vieille | medium | 652 |
News, France, War, History, Marketing.
maintenant) de la famille, et tout simplement l’individualisme matérialiste ambiant. La constitutionnalisation récente de l’IVG n’est qu’un symptôme éclatant de cette maladie incurable, qui risque d’affaiblir géopolitiquement et intérieurement une Europe déjà fragmentée et menacée de toutes parts. | medium | 653 |
News, France, War, History, Marketing.
Les autres puissances du monde comme l’Inde, la Chine, ou la Russie, peuvent connaître des problèmes démographiques, mais ne connaissent pas la dynamique générale, inéluctable, qui sévit à l’Ouest, et qui menace tous les peuples autochtones d’Europe de se faire grand remplacer par les populations | medium | 654 |
News, France, War, History, Marketing.
immigrées, qui elles rentrent par milliers et font des enfants à un rythme éffréné. 3. La guerre en Ukraine est en train de sérieusement dégénérer, à la défaveur de l’Ukraine (sans me jeter des fleurs, je l’avais prévu depuis longtemps), et les troupes russes commencent à regagner une véritable | medium | 655 |
News, France, War, History, Marketing.
dynamique offensive, capable d’aller loin, peut-être Odessa, et pourquoi pas encore plus loin si rien n’est fait diplomatiquement, ou militairement (même si sur ce point, si les ennemis européens de la Russie ne sont pas prudents et décident d’intervenir directement, la défaite inévitable de ces | medium | 656 |
News, France, War, History, Marketing.
forces pourraient empirer la situation). Quoi qu’il en soit, l’Ukraine est sur le point d’être dépecée, et ce ne sont pas les quelques centaines de chars allemands, français et britanniques, et leurs contingents en sous-nombre, ce ne sont pas les armées “coquilles d’oeuf” du tryptique de l’Europe | medium | 657 |
News, France, War, History, Marketing.
de l’Ouest, qui parviendront à arrêter les Russes (sans profondeur, sans réserves, sans stocks de munitions et de pièces, avec une doctrine et un entraînement insuffisants face à une armée maintenant expérimentée et redoutable). Ainsi, tout porte à croire que seule la diplomatie et une intervention | medium | 658 |
News, France, War, History, Marketing.
des Etats-Unis pourraient empêcher un succès russe éclatant et un éclatement général de l’Europe. Ces 3 convergences de problèmes, se réunissant au même point (l’Europe, et surtout de l’Ouest, et surtout la France), risquent d’accélérer des processus de décadence et de déclin de la “Vieille Europe” | medium | 659 |
News, France, War, History, Marketing.
et plus généralement de l’Occident américain, dans lequel elle a dissolu son identité, et de la mettre à bas. Si Trump est élu, il y a deux scénarios possible: Un rétablissement de la situation ukrainienne par la diplomatie (temporaire) Un abandon total de l’Europe en faveur d’un protectionnisme et | medium | 660 |
News, France, War, History, Marketing.
d’une concentration des efforts sur la Chine rivale = la catastrophe pour nous, à court terme. Tout est dit. Alea Jacta Est. PS: La politique (j’entends un nouveau gouvernement de droite, par ex du RN), ne changera absolument rien, ni aux problèmes démographiques, ni géopolitiques, ni économiques). | medium | 661 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
A host of revolutionary medical technologies, from age reversal to organ reconstruction, could be on the horizon according to witnesses. The life span in industrialized countries is about 76 years for males and 82 years for women, but this may soon change. A group of Silicon Valley entrepreneurs is | medium | 663 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
investigating claims from firsthand military witnesses who suggest it may already be possible to regenerate failing organs and damaged limbs — or even altogether regress the age of an individual. These statements would have once seemed far beyond the abilities of current science — then the New York | medium | 664 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
Times released its now-famous 2017 articles on the Nimitz Incident and Unidentified Aerial Phenomena. Since then, a sequence of public and private sector disclosures have suggested that government agencies may have had research programs regarding UFOs and their associated technologies for decades. | medium | 665 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
Though much remains officially unacknowledged, firsthand witnesses and various researchers have claimed that so-called ‘alien reproduction technology’ is a significant component of ongoing R&D. This field has gathered enough attention to spur several documentaries, available on Amazon, Hulu, and | medium | 666 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
other streaming platforms. Of these projects, a considerable portion deal specifically with the field of bioengineering. A group of Silicon Valley entrepreneurs are investigating these claims and exploring the feasibility of taking such bioengineering technologies to market. They’ve organized a | medium | 667 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
Conference on Secret Military Technologies and their possible applications to civilian life, taking place at Silicon Valley’s Plug & Play Tech Center this Sep 16–17. Pioneering organ reconstruction technologies today The need to regenerate organ tissue, or even entire organs, is critical to modern | medium | 668 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
medicine. Taken cumulatively, organ failure is the leading cause of death worldwide. If we were able to replace organs inside the human body on an industrial scale, we’d likely take a significant step towards extension of the human life span. According to Dr. Doris Taylor, co-founder at Miromatrix | medium | 669 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
and tentative conference speaker, two key problems stand in the way — availability of replacement organs and rejection. Miromatrix is pioneering a regenerative medicine technique that uses porcine organ scaffolds to regrow human cells, making the synthetically recreated organ quasi-human. This | medium | 670 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
technology is currently in pre-clinical trials according to the company website, however it holds the promise to drastically increase the availability of organs for transplant in cases where organ dysfunction isn’t of a sudden and traumatic nature. It’s possible, in future, that the technology will | medium | 671 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
be perfected by using a patient’s own stem cells, which would likely decrease rates of transplant immunological rejection substantially. Transplant rejection is one of the most significant limits of today’s medicine. This type of technology seems poised to drastically improve survival rates for | medium | 672 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
conditions that, today, can’t be resolved because patients run out of time. However, even these developments lag behind the capabilities some firsthand witnesses claim top secret military projects have achieved– more below. Another area in which regenerative medicine is rapidly advancing is limb | medium | 673 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
restoration. As far as we’ve seen, no mammals have the natural capacity to regenerate lost limbs — though some animals can, including salamanders, starfish, crabs, and lizards. Recently, researchers at Tufts University were able to induce the reconstruction of a limb in African clawed frogs, which | medium | 674 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
normally don’t have this ability. The technique used by the scientists at Tufts includes a biocompatible silica cover and a gel infused with five different drugs, which instigated a process of limb regrowth that researchers hope could, one day, have human applications. This second approach appears | medium | 675 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
closer in principle to the technologies firsthand witnesses have reported observing in military labs associated with a project referred to as the Secret Space Program. And the developments of modern science are only getting stranger… Age regression technology and the rise of biotech After years of | medium | 676 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
research on aging, it seems American startups are beginning to advance from lab to market. One example is Texas-based Allosteric Bioscience. This company is trying to develop drugs that target the modulators of human aging using a discovery process rooted in computational chemistry. In particular, | medium | 677 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
they’re using a combination of artificial intelligence and quantum computing to weigh factors that contribute to identifying an effective drug. They also hope that, in future, they’ll able to synthesize the proteins responsible for human aging and control the process at will. California-based | medium | 678 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
Cyclarityx is taking a different route. The founders have identified oxidized cholesterol as the primary cause for atherosclerosis, which in turn seems to be the underlying cause of many other age-related diseases. Basically, they want to remove oxidized cholesterol from human cells using one in a | medium | 679 |
Medicine, Secret Space Program, UFO, Biotechnology, Biophysics.
class of molecules known as cyclodextrins. Cyclarityx is currently in clinical trials. In short, human ingenuity is at work in the medical fields of anti-aging, limb regeneration, and organ regeneration. It all sounds promising… Could someone be ahead of the game? Early this year, Disclosure | medium | 680 |
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