Electric Power System Analysis Software Market Growth Analysis, Market Dynamics, Key Players and Innovations, Outlook and Forecast 2025-2031

The global Electric Power System Analysis Software market was valued at US$ 1,890 million in 2023 and is anticipated to reach US$ 2,860 million by 2030, witnessing a CAGR of 6.2% during the forecast period 2024-2030.

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The major global companies of Electric Power System Analysis Software include ETAP (Operation Technology), Eaton Corporation, ABB, Siemens, DIgSILENT, General Electric, Schneider Electric, Energy Exemplar, and PCI Energy Solutions, etc. In 2023, the world's top three vendors accounted for approximately 24.64% of the revenue.

This report aims to provide a comprehensive presentation of the global market for Electric Power System Analysis Software, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Electric Power System Analysis Software.

The Electric Power System Analysis Software market size, estimations, and forecasts are provided in terms of and revenue ($ millions), considering 2023 as the base year, with history and forecast data for the period from 2019 to 2030. This report segments the global Electric Power System Analysis Software market comprehensively. Regional market sizes, concerning products by Type, by Application, and by players, are also provided.

For a more in-depth understanding of the market, the report provides profiles of the competitive landscape, key competitors, and their respective market ranks. The report also discusses technological trends and new product developments.

The report will help the Electric Power System Analysis Software companies, new entrants, and industry chain related companies in this market with information on the revenues for the overall market and the sub-segments across the different segments, by company, by Type, by Application, and by regions.

Market Segmentation

By Company

ETAP (Operation Technology)

Eaton Corporation

ABB

Siemens

DIgSILENT

General Electric

Schneider Electric

Energy Exemplar

PCI Energy Solutions

PowerWorld

Neplan AG

Atos SE

Artelys

PSI AG

OATI

ION (Allegro)

Unicorn Systems

Electricity Coordinating Center

Open Systems International (OSI)

Resource Innovations (Nexant)

AFRY

Bentley (EasyPower)

Segment by Type

On-premise

Cloud-based

Segment by Application

Electric Power Distribution

Electric Power Transmission

Electric Power Trading

Electric Power Generation

Other

By Region

North America (United States, Canada, Mexico)

Europe (Germany, France, United Kingdom, Italy, Spain, Rest of Europe)

Asia-Pacific (China, India, Japan, South Korea, Australia, Rest of APAC)

The Middle East and Africa (Middle East, Africa)

South and Central America (Brazil, Argentina, Rest of SCA)

FAQs on Electric Power System Analysis Software Market

1. What is the current size of the Electric Power System Analysis Software market?

The global Electric Power System Analysis Software market was valued at US$ 1,890 million in 2023.

2. What is the expected growth of the Electric Power System Analysis Software market?

The market is projected to reach US$ 2,860 million by 2030, growing at a CAGR of 6.2% from 2024 to 2030.

3. What factors are driving the growth of the Electric Power System Analysis Software market?

The growth of the market is primarily driven by increasing demand for efficient energy management systems, advancements in grid technology, the integration of renewable energy sources, and rising investments in smart grid infrastructure. These factors are pushing the need for advanced software solutions for electric power system analysis.

4. Which region is expected to see the highest growth in the Electric Power System Analysis Software market?

While North America and Europe continue to dominate the market due to technological advancements, the Asia-Pacific region is expected to witness the highest growth due to rapid industrialization, urbanization, and increasing energy demands in countries like China and India.

5. What are the key applications of Electric Power System Analysis Software?

Electric Power System Analysis Software is used in a variety of applications, including:

Power grid design and optimization

Load forecasting and management

Fault detection and system stability analysis

Renewable energy integration and power flow analysis

Security and reliability monitoring

Drivers:

Increasing Demand for Grid Reliability and Efficiency

With growing concerns over energy blackouts and the need for uninterrupted power supply, power system analysis software plays a critical role in ensuring grid stability. It enables operators to identify vulnerabilities, manage load demands, and optimize power distribution.

Integration of Renewable Energy Sources

The global shift toward renewable energy sources like solar, wind, and hydropower requires advanced software to manage intermittent generation and ensure seamless grid integration. These tools help in planning, simulating, and operating hybrid energy systems.

Modernization of Aging Infrastructure

Many power grids worldwide are aging and require upgrades to meet modern energy demands. Power system analysis software assists in designing and implementing these upgrades, improving overall infrastructure performance.

Government Initiatives for Smart Grid Deployment

Governments across the globe are investing heavily in smart grid projects to enhance energy efficiency, reduce losses, and integrate renewable energy. Such initiatives are driving demand for advanced analytical tools.

Rising Demand for Real-Time Monitoring and Control

The need for real-time monitoring, fault detection, and rapid decision-making in complex power systems has boosted the adoption of analysis software equipped with advanced visualization and predictive capabilities.

Restraints:

High Initial Investment and Implementation Costs

The cost of acquiring, implementing, and maintaining power system analysis software can be prohibitive, especially for small and mid-sized utility companies. This limits adoption in cost-sensitive regions.

Complexity of Software Solutions

Advanced analysis tools often require specialized expertise to operate effectively. The steep learning curve and the need for skilled personnel can deter organizations from adopting such systems.

Data Privacy and Security Concerns

As power systems become more digitalized, the risk of cyberattacks and data breaches increases. Ensuring the security of sensitive grid data is a significant challenge for software providers and end-users alike.

Opportunities:

Rapid Adoption of IoT and Advanced Technologies

The integration of the Internet of Things (IoT), Artificial Intelligence (AI), and Machine Learning (ML) into power system analysis software is creating opportunities for real-time data analysis, predictive maintenance, and enhanced decision-making.

Emerging Markets and Rural Electrification Programs

Developing countries are investing in electrification and grid expansion projects. These regions offer significant growth potential for power system analysis software to support planning, load management, and energy distribution.

Decentralized Energy Systems and Microgrids

The growing popularity of microgrids and decentralized energy systems is driving demand for software capable of managing distributed energy resources, optimizing local power networks, and ensuring resilience.

Energy Transition to Electric Vehicles (EVs)

The proliferation of electric vehicles is creating new challenges for power systems, including increased load demands and distribution challenges. Analysis software is critical for planning EV charging infrastructure and ensuring grid stability.

Cloud-Based and SaaS Solutions

Cloud-based and Software-as-a-Service (SaaS) platforms offer scalable and cost-effective options for utilities and energy companies, reducing the need for significant upfront investments in hardware and infrastructure.

Challenges:

Regulatory and Compliance Complexities

Variations in regulatory frameworks and grid standards across regions create challenges for software developers, who must adapt their solutions to meet diverse requirements.

Resistance to Technological Adoption

Traditional utilities and grid operators may resist adopting new software solutions due to entrenched workflows, lack of technical expertise, or apprehension about technology risks.

Integration with Legacy Systems

Many utilities operate with legacy systems that are difficult to integrate with modern software solutions. This compatibility issue hampers the seamless implementation of new technologies.

Managing Data Overload

The growing volume of data generated by smart grids, IoT devices, and sensors poses challenges in data processing, storage, and analysis. Software providers must ensure their tools can handle large-scale data efficiently.

Market Fragmentation and Competition

The market is highly fragmented, with numerous players offering similar solutions. This creates pricing pressure and challenges in differentiating products.

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Electric Power System Analysis Software, Global Top 10 Players, Market Share and Ranking (2023)

Electric Power System Analysis Software Market Summary

Electric Power System Analysis Software include electric power generation, distribution, transmission, trading and sales, protection etc.

According to the new market research report “Global Electric Power System Analysis Software Market Report 2024-2030”, published by QYResearch, the global Electric Power System Analysis Software market size is projected to reach USD 2.86 billion by 2030, at a CAGR of 6.2% during the forecast period.

Figure.   Global Electric Power System Analysis Software Market Size (US$ Million), 2019-2030

Figure.   Global Electric Power System Analysis Software Top 10 Players Ranking and Market Share (Ranking is based on the revenue of 2023, continually updated)

According to QYResearch Top Players Research Center, the global key manufacturers of Electric Power System Analysis Software include Siemens, ABB, Eaton Corporation, Schneider Electric, General Electric, Resource Innovations (Nexant), Atos SE, OATI, ETAP (Operation Technology), Open Systems International (OSI), etc.

In 2023, the global top 10 players had a share approximately 45.0% in terms of revenue.

Figure.   Electric Power System Analysis Software, Global Market Size, Split by Product Segment

In terms of product type, currently On-premise is the largest segment, hold a share of 77.6%.

Figure.   Electric Power System Analysis Software, Global Market Size, Split by Application Segment

In terms of product application, currently Electric Power Distribution is the largest segment, hold a share of 53.3%.

Figure.   Electric Power System Analysis Software, Global Market Size, Split by Region

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 17 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Top 5 Eco-Friendly Technologies You Need to Know About

Introduction

Eco-friendly technologies are designed not to disturb nature and its processes. The domains of such technologies include energy, transportation, construction, waste management, and many more. This blog outlines 5 of the best eco-friendly technologies that create a visible difference as we walk towards becoming a sustainable world. Read to continue link

Global Electric Power Steering System (EPS) Market 2024: Industry Analysis Prominent Players, Tendencies, and Forecast to 2030

Global Electric Power Steering System (EPS) Market research report published by Exactitude Constancy reveals the current outlook of the global and key regions from the following perspectives: Key players, countries, product types, and end industries. The report studies the top companies in the global market and divides the market into several parameters. This Global Electric Power Steering System (EPS) Market research report pinpoints the industry's competitive landscape to understand the international competition. This report study explains the expected growth of the global market for the upcoming years from 2024 to 2030. This research report is accumulated based on static and dynamic perspectives on business.

The global electric power steering system (EPS) market is expected to grow at 6% CAGR from 2023 to 2030. It is expected to reach above USD 46.76 billion by 2030 from USD 31.1 billion in 2023.

Browse Complete Summary and Table of Content @ https://exactitudeconsultancy.com/ja/reports/24472/global-electric-power-steering-system-eps-market

Industrial Miniature Circuit Breakers Market Geographical Expansion & Analysis Growth Development, Status, Recorded during 2017 to 2032

MCB and MCCB Market Projected to Reach USD 12.96 billion, at a 7.5% CAGR by 2030

Trends:

Several trends are shaping the industrial MCBs market:

• Growing IoT and automation adoption: Reliable circuit protection devices are needed since IoT and automation technologies are increasingly being used in industrial operations. Industrial MCBs are crucial parts of automated systems because they protect against electrical problems and improve the general security and effectiveness of industrial processes.

• There is a demand for intelligent and connected solutions, and industrial MCBs are evolving to include these features. This makes it possible to remotely monitor, diagnose, and operate electrical systems, which increases the effectiveness of maintenance and troubleshooting. The demand for intelligent industrial MCBs is being driven by the movement towards smart manufacturing and Industry 4.0.

Key Factors:

Several key factors are influencing the growth of the industrial MCBs market:

• Industrialization and infrastructure development: The need for industrial MCBs is being driven by continuing industrialization and infrastructure development initiatives around the world. To protect their electrical systems and equipment, industries like manufacturing, construction, oil & gas, and power generation need trustworthy circuit protection solutions.

• Safety and compliance rules: Reliable circuit protection devices are required in industrial contexts due to strict safety regulations and standards. Industrial MCBs offer an essential layer of defence against electrical problems, guaranteeing adherence to safety regulations and preventing accidents.

• Growth of electrical infrastructure: The need for industrial MCBs is driven by the growth of the electrical infrastructure, which includes substations, distribution networks, and data centres. Within these infrastructure projects, these circuit breakers are employed to protect and regulate electrical circuits.

In conclusion, developments like automation, IoT integration, energy efficiency, and the adoption of renewable energy sources have an impact on the market for industrial MCBs. The market's expansion is primarily being driven by industrialisation, safety requirements, the expansion of the electrical infrastructure, and the retrofit/replacement market. In order to satisfy the changing needs of industrial customers, manufacturers and suppliers should align their product lines with these trends and considerations.

Referrals to our Stringent datalytics company, trade journals, and websites that focus on market reports are encouraged. These sources frequently include thorough research, market trends, growth projections, competition analysis, and other insightful information about this market.

You can investigate the availability of particular reports linked to this market by going to our website or getting in touch with us directly. These reports frequently need to be purchased or subscribed to, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

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Market Segmentations:

Global Industrial Miniature Circuit Breakers Market: By Company

• Kevilton Electrical Products

• Elmark

• Britec Electric

• R. STAHL EX-PROOF

• Siemens

• ABB

• Camsco Electric

• Iskra

• Dongguan Keiyip Electrical Equipment

• Schneider Electric

• China Suntree Electric

• Wenzhou korlen electric appliances

• Legrand

• Finolex

• Hager

• Eaton

Global Industrial Miniature Circuit Breakers Market: By Type

• B-MCB

• C-MCB

• D-MCB

Global Industrial Miniature Circuit Breakers Market: By Application

• Achitechive

• Power Industry

• Other

Global Industrial Miniature Circuit Breakers Market: Regional Analysis

The regional analysis of the global Industrial Miniature Circuit Breakers market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Industrial Miniature Circuit Breakers market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Industrial Miniature Circuit Breakers in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Industrial Miniature Circuit Breakers in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Industrial Miniature Circuit Breakers in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Industrial Miniature Circuit Breakers in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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"It’s technically possible for the UK to achieve its goal of having a clean power system by 2030, and doing so should reduce electricity bills and bolster the country’s energy security, the grid operator says in a study commissioned by the new Labour government.

The context

The UK recently shut its last coal-fired power plant and aims to slash its use of gas turbines as it seeks to all but eliminate fossil fuels from its electricity mix by the end of the decade.

In 2023, renewables and nuclear accounted for 62% of the country’s electrical output, while fossil fuels held a 38% share. Under the 2030 clean power target, fossil fuels (gas) would be reduced to less than 5% of the mix.

The latest

“The analysis concludes that clean power is a huge challenge but is achievable for Great Britain by 2030,” the National Energy System Operator said in a statement as it published the study.

Overall system costs are unlikely to increase if the target is met, and tariffs could in fact decline as legacy power contracts expire and if the state makes sufficient progress on energy efficiency gains, flexibility mechanisms, improving grid connection processes, and overall policy modernisation.

Significant investments are required in a short amount of time, but they would allow the UK to become a “leader” in new technologies while also reducing the country’s exposure to potential energy price shocks stemming from spikes in international gas prices, as was the case after Russia invaded Ukraine.

NESO’s analysis shows that clean technologies — renewables and nuclear — will be able to produce at least as much power as Great Britain consumes in total in 2030...

“A clean power system for Great Britain will deliver a backbone of home-grown energy that breaks the link between volatile international gas prices; that is secure and affordably powers our homes and buildings; that decarbonises the transport that we take to school and work; that drives the businesses of today and catalyses the innovations of the future.”

Next steps: The government will now consider NESO’s advice as it develops its clean power action plan later this year."

-via The Progress Playbook, November 5, 2024

The almost overnight surge in electricity demand from data centers is now outstripping the available power supply in many parts of the world, according to interviews with data center operators, energy providers and tech executives. That dynamic is leading to years-long waits for businesses to access the grid as well as growing concerns of outages and price increases for those living in the densest data center markets. The dramatic increase in power demands from Silicon Valley’s growth-at-all-costs approach to AI also threatens to upend the energy transition plans of entire nations and the clean energy goals of trillion-dollar tech companies. In some countries, including Saudi Arabia, Ireland and Malaysia, the energy required to run all the data centers they plan to build at full capacity exceeds the available supply of renewable energy, according to a Bloomberg analysis of the latest available data. By one official estimate, Sweden could see power demand from data centers roughly double over the course of this decade — and then double again by 2040. In the UK, AI is expected to suck up 500% more energy over the next decade. And in the US, data centers are projected to use 8% of total power by 2030, up from 3% in 2022, according to Goldman Sachs, which described it as “the kind of electricity growth that hasn’t been seen in a generation.”

21 June 2024

Chapter 429 has been my Dabi's Dance

I can't stop smiling.

I wanted to start off by saying thank you. Not to Hori, but to you all. Every last one of you in these tags for your contributions. Be it analysis, re-reads, fan works or simply your perspectives. I look forward to seeing what you will make in the future.

So, Thank you.

I suppose I should start at the beginning. MHA was always in the background of my life and I hated it. I don't watch anime and yet still MHA related media would make it's way onto my socials in all it's obnoxious forms. This went on for years.

And then suddenly, it stopped. It seemed like MHA's craze had died down, I'd still see it from time to time through merchandise but never to the consistency it had prior.

That was until Dabi's Dance was published and the net went wild.

I knew a few things about Endeavor from my past exposure, he was universally hated and abused his kids and wife (to the point she scalded her son in a fit of psychosis).

Deciding I had nothing better to do, I found myself searching to see what kind of consequences would befall such a monstrous character.

Would he fall like Icarus, be torn apart by the public, how would the family he ruined react to the news?.

And then, nothing. No punishment, no reaction. Just dead air.

I recall that my face dropped internally. My blank expression mirrored my phone screen's sterile nature, as it displayed the information in front of me.

He got away with it. So I did some digging and it got so much worse.

Bakugo's evasion of any consequences or damages, coddled and shielded by Hori's inability to go through on anything.

Hawks who murdered a near crippled man on a hypothesis, for the mere crime of having the "wrong" quirk, for not giving up, for being "unlucky"

Aizawa, Hori's little mouthpiece. who decides to play judge, jury and executioner with the futures of students he's supposed to be teaching. Only for the Nedzu and the narrative to allow him, his friends turned into lapdogs that agree to the letter.

The Commission who strive to keep theirrotting husk of a system alive through assasins, child soldiers and indoctrination.

Even if it's gears must be lubricated with blood, even if it means lying to the world and having them clean up the mess. They MUST stay on top, the illusion must be upheld.

I just couldn't fathom how this was seen as a good thing.

And somewhere along the way I began to feel something akin to hate. Not your typical ire, one powered by anger, no.

I wanted to see how low Hori would go, just how horrifically he would mangle a series that everyone had once praised.

I wanted to witness what wonders a jaded community would create, to show what they were capable of (to create and understand MHA in a manner Hori wishes he could even emulate a fraction of)

I wished to see your own expressions of love and hatred.

The thought of witnessing the breaking point, the dust settling to expose all the glaring flaws and infested wounds of MHA. It buzzed in my brain like electricity.

The idea that when all was said and done, you, the people would do what Hori couldn't/wouldn't and forge the bones and salvagble bits of MHA into a story worth remembering.

One where abusers are punished for their crimes instead of rewarded

Where victims can have a voice, feel and grow, carve their own paths and move forward from their trauma.

Where the implications of MHA's rotting and disingenuous society get explored instead of swept under the rug

Where people get a chance.

I waited eagerly for the day it would all fall apart.

So, do you know what I did when I logged onto the tag and saw your posts!?.

I laughed, the shrill giggle in the back of my throat quickly surging into an almost manic cackle. It was like lightning, vindicating and sobering all at once. My face was stretched to it's absolute limits with how wide my grin was. I could almost hear the shattering of MHA's last bit of integrity and I loved it.

The realization MHA's greatest threat was the author himself, It's one that I grasped long ago (as far back as the Dark Dekiru Arc) and I'm sure most of you understood this as well.

But to see that more of you are starting to get it, to realize there's no going back. That as the curtains draw near and the lights begin to dim, there is no other side here. Violence begets violence and Hori's gone past the event horizon.

It feels, hopeful. Perhaps we can build something worth saving.

It's been a wild ride so far and it's still ongoing. Hori's time is long over, it has been for a while now, so I suppose what I'm asking Is:

Now It's Your Turn, what's your play?

_______________________________________

Update:

IT'S FINALLY HAPPENING!

my thoughts on tbhx ep 7 (spoilers below cut) (if you saw this before no you didnt)

im curious about e-soul's health condition now- at first i thought it was just the old e-soul who had the labored breathing but it seems that yang cheng has inherited it too? im thinking back to when he was in the hospital and mentioning that e-soul's power felt similar to electricity. i really want to know the details of this power and its health effects!

yang cheng losing the same arm the old e-soul lost in their final battle is sad but it represents the never-ending cycle of heroism and capitalism. despite what yang cheng thinks, he's not changing a system. it can't be done with only one person's will, strong as it may be. i'm hoping that this will all change in the tournament we've been hearing about, but i'm worried about his mental state as of right now tbh.

uncle rock is so scary- genuinely. not only did he take advantage of two young men in his scheme to kidnap little pomelo, but he had no qualms kidnapping one in order to leverage it against the other into shooting shang chao. AND PROCEEDED TO DROWN THEM BOTH IN WET CONCRETE AFTER THE DEED WAS DONE.

but besides that, his understanding of perception and how it's wielded is terrifying. he knew how to draw out og! esoul into using a particular move and was able to manipulate the public into pressuring him into doing exactly that.

it makes me wonder if he had cultivated yang cheng's personality to be the way it is, but i'm leaning towards him knowing yang cheng's background, seeing how his trajectory in life was going and taking advantage of the opportunity that presented itself. after all, it's like the special love seat: it doesn't have powers or anything to make you fall in love, but uncle rock took advantage of an opportunity already present.

also. to me . shang chao and xia qing represent the upper class and middle/lower class respectively. xia qing wanted yang cheng to have a normal life- to go to a concert with her and not lose himself to the identity of e-soul. meanwhile, shang chao immediately wanted to thrust yang cheng into the world of heroism (and in a top ten spot, no less). he grew up with these types of privileges and thrusts them upon yang cheng without a second thought, but we can't be having that now can we?

it makes sense for shang chao to be dead- to someone in the lower class like yang cheng, you can never truly assimilate to the upper echelons of society.

it's also quite stark in the funeral scene when mr shang is confronted by yang cheng. yang cheng's wearing a blue shirt, black cardigan, and pants. he quite literally cannot afford a suit. and while i understand parental rage, mr shang's treatment of yang cheng is telling of the wealthy elite: unless you can make yourself useful, get out of their sight.

i wonder about uncle rock's background too. he seemed quite comfortable and didn't struggle with his transition to donning more refined clothing- i wonder if he had grown up well-off but had been cast off by his family or never really had a chance to make it big like mr shang and has been biding his time. yang cheng makes a comment about how his campaign would cost a lot of money but uncle rock seems very unbothered

another thing- yang cheng showing up to class late and covered with mud and spinning it into saying he guesses he's just more down to earth is foreboding of his future. like yes, he is. he wanted to enter the fight so that people can have a hero who fought for justice (albeit not realizing to be a hero is to resign yourself to the whims of corporations and public opinion- which doesn't always advocate for justice, particularly online). but also . he's naive. in a circumstance where most would make an excuse of some sort, he's painfully sincere and endearing about it. and that sincerity, that genuine desire, was easy for uncle rock to manipulate.

i'll do a proper analysis post later on once ive rewatched yang cheng's arc but in the meantime i'll weep for yang cheng and his future

How Tesla’s 1934 Roast Looped Back to Donald Trump’s Uncle

Time travel to 1934 when Tesla dropped the most technical roast in science history! ⚡️🔥

The 1930s were a wild time for physics—scientists were just starting to crack open atoms, and everyone was hyped about particle acceleration. Enter MIT professor Van de Graaff, who unveils this massive static electricity generator housed in an airplane hangar. And it was impressive—a breakthrough in creating high-voltage environments for controlled research! 🏗️

But Tesla, the high-voltage GOAT since the 1890s, saw the numbers and was like, “Hold up...” 🤔

He broke it down (remember, this is the guy who gave us AC power):

The generator produced a CRAZY high voltage (10 million volts!) but barely any current (0.00022 amperes).

Imagine a super-skinny water pipe with extreme pressure vs. Tesla’s previous systems, which were more like Niagara Falls.

Only 23% efficient—a major issue for power generation.

The machine was producing its own ozone, which was deteriorating its belts. ☠️

Tesla had already pushed 18 million volts and 1,100 amperes through the air back in 1899, so he wasn’t easily impressed. He published a full analysis in Scientific American, saying, “Most people, and not a few electricians, will think that very long and noisy sparks are indicative of great energy, which is far from being the case.” 📝

Here’s the science tea ☕: While Van de Graaff’s machine was revolutionary for particle experiments, Tesla calculated that 99.33% of its input energy was lost during charging. For particle acceleration, it only hit 0.122 times the speed of light. But here’s the kicker—Van de Graaff’s machine wasn’t built for power plants; it became crucial for nuclear research and is still used in labs today! 🔬

Now, the plot twist: former president Donald Trump’s uncle, Dr. John Trump, was working with Van de Graaff at MIT during all this. Imagine getting a detailed critique from THE Nikola Tesla about your project and he's just dunking on you! 😅

Tesla wasn’t just throwing shade, though—when they improved the machine to 20 kilowatts, he acknowledged the progress with a galaxy-brain analogy: “A little water pumped through some joint in a big low-pressure main is of no consequence, but in a pump designed for an extremely high pressure and very small delivery it is all-important.” Different tools for different jobs! 🛠️

And here’s the full-circle moment: When Tesla passed in 1943, the FBI called Dr. John Trump to review his papers. Seems like a perfect time to restore your reputation and get back at Tesla. Trump said that Tesla's work, while innovative and intriguing, lacked concrete, practical applications and was largely speculative. He concluded that his papers did not contain any groundbreaking discoveries or revolutionary technologies. Sure, buddy! 😉

What do you think? Was Tesla too harsh on Van de Graaff, or was he spot-on?

PHIGHT OR PHLIGHT

Happy holidays!!! Here's chapter 4!! I might have a special present by christmas for yall if I'm not too busy :)

Hope yall enjoy stinky man crashing out while his rogue robot reconsider his career change!!

Bit of a content warning here: religious ideology and character death, read at your own discretion.

Part 1 || Part 3 || Part 5

Using the power of a god as a battery, how laughable. But this connection could do more than that, it was a direct way of influence. Granted it would be easier to leave him as he is, but where’s the fun in that? Besides, he’d get there eventually, may as well speed up the process and play with the product. Frankly, it doesn’t truly matter either way, alive or not, there’s nothing that can’t be manipulated.

Biograft could feel the air of the room around him, he lies shut down on the workbench as Medkit integrates the eye to power him. He felt the air inside him, his poor cooling system barely keeping it moving. He felt himself fall deeper than his body, he felt something other than himself in his code.

“That man may have created you, carved your mind, but I gift you life, soul.”

When making him, Subspace used hard code. All Biograft had known was the simplicity of set values and fixed data. Outside of that were the servers, all updates and new information being inputted through them. That was all he had to think about, all he could think about. But some loose line of code allowed for something more. But right now, he was still just code.

“ You’ll exist proper thanks to me.”

He could feel something new brewing inside him. Hear the gentle hum of energy flowing through him, replacing the electricity he ran on. He felt him. The Father changing him.

“You could consider yourself one of my children, as I am the one to truly give you existence through a fraction of myself.”

This pushing, crowding, invading of his innermost self. Is it even him thinking?

“I hold all my followers dear, but you? I have high hopes for. You best not disappoint. I have no use for a child which cannot provide back to me.”

Is it him thinking? Or is it this invisible force living through him? He felt the whirrs of his fans, but was it him making them move? He felt a gentle pulse as his new core began to stabilize. Did he have a heartbeat? Or was it just this hidden lord which forced its mimicry. Did he breathe? Or was the air he felt just commanded by some remorseless emperor to move as such?

“Don’t worry, don’t fight, you’ll receive what you wish, just don’t fight it.”

He felt his being expanding, preset values becoming dead weight. Stored data becoming memory-like. Simple intake and analysis becoming learning. As though he were being created, no, birthed for the first time. His limitations being stripped, he could edit his own code. But this came with a weight to it, the burden of a soul always does.

“Now then, what have you to say?”

He could speak whatever he wanted, but knew the response he owed.

“Thank you Father.”

Bigrafts lights turn on, a teal color replacing the orange they were before. The projection on his face now only showing one eye, the other replaced by a cactus flower. He sits up as Medkit watches anxiously. Biograft looks away from him and to himself, opening and closing his hands. Everything had this new depth to it; he felt his joints, his “skin”, the ever so slight warmth from the lights across him, and Medkit’s stare. After a deep breath and clearing his throat, Medkit breaks the silence, “How do you feel?”

Biograft thinks for a moment, realizing how the question doesn’t overwhelm him. He’s feeling a lot, but he’s able to think through it now. “I feel… I feel content. It’s odd, I have so much on my mind, but right now I feel okay.”

Medkit’s expression shifts slightly, showing some relief and a bit of surprise, “Good… that’s good,” he nods, “I should let Scythe know we’re finished.” Biograft nods and watches as medkit leaves. He steps off the workbench and stretches, it’s a familiar sensation, yet it’s different now. He looks down and notices the Blackrock emblem previously on his chest now replaced by that of the Lost Temple. Scythe’s and Medkit’s entrances interrupt him.

“Well lookie here!” Scythe steps in front of him, looking him up and down before putting a hand on his shoulder, “lookin like real family!” She gives a gentle squeeze before letting go and turning to Medkit, “You did a fine job on him. How’s his gear lookin?”

Biograft looks at Scythe confused, knowing what he’s about to ask she answers first, “Well we have to make sure ye distinguishable from the others don’t we? Don’t worry, I’ll teach ya how to use it.”

Medkit goes to one of the counters while Biograft responds, ‘I’m sure I’m capable of learning my own gear-”

Scythe cuts him off as Medkit walks towards the two with Biograft’s new weapon, “Aw but where’s the fun in that, besides you’ll already be with me for the next lil while considerin’ I gotta show you around.” Biograft opted not to respond, recognizing his lack of choice in the matter. He looks at the double-headed spear Medkit hands him, the ends having been taken from his old swords, but they’re now the same teal his lights are. He takes it and steps back in order to spin it a few times, feeling the new weight in his hands. “Havin’ fun?’ He stops as Scythe speaks, “Now, I got one last thing before we get going, you need a name lil guy!”

Biograft looks at her confused, so she continues, “Well we can’t just keep callin' ya Biograft, you’ll get mixed up with the others! So let’s give you a real name-”

Before Scythe gets a chance to continue, Biograft interrupts, “I want Medkit to pick it.”

Scythe chuckles under her breath and the two of them look at Medkit expectantly. Medkit thinks to himself for a moment. Seeing as he should be named after his gear the first word to come to mind was jägerstock; however, that doesn’t run off the tongue particularly well. It’s also known as a hunting staff… “Hunter.”

Biograft, no, Hunter stares at him before nodding, “That is my name now,” he looks at Scythe, “Hunter.”

“Well then, since that’s settled, we oughta get goin,” She walks to the door, motioning for Hunter to follow her, “See ya round ‘Kit.”

Hunter looks at Medkit for a moment, having so much more to say, but only manages to get out, “Bye,” with an implied, ‘for now I hope,’ before leaving. Medkit returns a quick goodbye as Hunter walks through the door.

Being left alone, Medkit reflects. The remaking of Hunter's gear was a familiar process, it reminded him of just how much he missed his old work. Gods, he hated being a doctor. It was such a miserable thing. But he couldn’t just stop. Not when there are people to help. That’s why he lives, isn’t it? That’s why he has the abilities he does. Why his crystal is different from Subspace’s at least.

The two had carved tangible pieces of the Iphinity which solidified into the crystals they used for power. It asked them what they wanted. Subspace said to destroy, Medkit said to help. The equipment they used has long been destroyed and Medkit made sure to take his notes before leaving. It would take Subspace some time to figure out how to repair the machinery missing half the processes for such.

Subspace’s crystal was much better at holding and channeling energy, while Medkits was better for manipulating it. That was how he healed people, simply reversing their wounds. It’s how he’s able to revive them.

It helps people, but he hates it.

He hates it. He hates the panic of being too late. He hates the chance that there may be a day where he cares for those he could save no more than Subspace does his test subjects. He hates that he cares underneath it all. He hates that he knows that day has long been coming. He hates it. He hates it. He hates it.

But what he hates most, is that there are demons he can’t save, because he knows he’s one of them.

A couple days pass, Scythe training Hunter and teaching him the church’s ways. If it weren’t for The Father’s energy keeping him alive, he wouldn’t have followed any of the beliefs they were spoon feeding him. Though, he only took a couple to heart.

He doesn’t need sleep, but finds mild satisfaction in it, so he continues the habit. Today Scythe wakes him, seeming quite excited, “Get up! You got yer first mission today!” He gets up from his bed, leaving the mostly empty room and follows behind Scythe as they walk through the church's halls. “It’s a simple one, we’re gettin’ some gears for a dear patron of the church. It’ll be interesting seeing how ya do against a triple for your first kill, but I think you’ll do fine.”

Confused, he asks, ‘A triple? Please clarify.”

Scythe laughs, “A triple is a demon who’s gear has three main parts, instead of the usual one. They’re rare, ‘bout as rare as healers. Doubles, like me, are still pretty rare, but not as much as them. The one you’ll be goin’ after is named C.G. and wields a saber, rifle, and flag. We’ll be makin’ our way to Thieve’s Den.” Hunter nods, remaining quiet for a few seconds as he takes in the information.

“You said this would be my first kill. That is incorrect, unless you mean in the context of my working for the church.” Scythe stops in front of him and starts laughing.

She turns to face him, “Aw, bless your heart! You really think what you’ve done before counts?”

He looks at her confused, “Why wouldn’t it? Those demons are dead.”

She continues to laugh, Hunter unable to tell if it’s genuine or mockery. She takes a deep breath before staring him down, “Let me ask you somethin’, have you ever felt the weight of a life in your hands?” Before he can respond, she steps closer, “I know you’ve killed, but that wasn’t when you were living, that was when it was all you were meant for. All you were made for, because you were just a machine. Don’t misunderstand, you're still a machine, but you’re alone now. An individual that can think and feel fer itself, bearin’ the burdens of life. You haven’t killed like this.” She takes another step forward, “You have to take now, knowing you can be taken from just the same. You have a life now, you have something- well, someone, to loose. Still think you can kill the same?” Hunter finds himself unable to respond, tense. She grabs his shoulders, “Aw, you’ll be okay, there’ll be consequences if you can’t, but I know you it in you. Besides, family’s here to help, I’ll be watching your first couple missions, so don’t worry about anythin’ goin’ too wrong, alright?” Hunter hesitantly nods. Scythe lightly pats his shoulders before stepping away and the two of them leave the church.

“DAMN IT” Sucpace yells while throwing various supplies off one of his lab tables, glass shattering and various substances sprawling out on the floor. Hyperlaser observes his tantrum from afar. He had come to ask about the sudden drop in security, but found this instead.

“What the hell happened?” Whatever it was was definitely going to mean lots of work for him, so better to just get to the point.

“They got away! They- Medkit and that Biograft, they’re alive and they got away!” Subspace’s voice chokes up as he starts a coughing fit.

“A Biograft? Really?” That would explain the current state of things, but it was still hard to believe. Still not fully understanding, Hyperlaser asks a bit more forcefully, “What happened.”

Clearing his throat, “I had him cornered. Biograft was supposed to help, I had him. Medkit was right there in front of me, and that corrupted Biograft punched me off! Medkit’s bullet took a chunk of my side!” He motions dramatically to the injury. “Then they ran off!” he grips the table, about ready to throw it like he did with all the supplies which previously rested on it. “He took it! He broke him! He-”

Hyperlaser cuts him off before he could get too absorbed in his rant, “I assume you want me to retrieve him?”

Subspace pauses for a moment before grinning under his mask, seemingly a bit calmer, “No, no it’s fine, I’ll get back at him! I’ll just go back to the plan I had before! It’ll be perfect! I’ll take from him like he did to me!” As Subspace starts to laugh to himself, Hyperlazer decides that it’d be smart to leave. Subspace, not really noticing or caring about his exit, brings out an older set of files and starts writing on a nearby whiteboard.

All he has to do is kill Sword! That’s all! He’ll kill him, figure out some way of animating his corpse, and use him to get to dear ol’ Meddy! And once Meddy is dealt with, fixing that rogue robot is next on the list. How dare Medkit corrupt his son. There’s nothing wrong with Biograft, all his inventions are as flawless as he is! This one just needs some… correcting! With Meddy out of the way, it’ll be easy! But first things first, that son of a sword.

He arrives in a desolate grassland. There’s only one person other than him and Scythe. That’s the target, just a quick kill, then he’s done.

He arrives at a house. There’s only one demon inside. A Slow and painful death is what he deserves.

Hunter quietly approaches them, weapon ready in his hands.

Subspace begins flooding Sword’s house with a newer variation of his usual poison gas.

They stand and turn to face Hunter. They remain in a cold silence, waiting for the other to make a first move.

The Home’s air is suddenly chilling, but it takes Sword a while to notice something’s wrong. He hears his front door open and stands up. He sways and almost almost falls over going to see who just came in. He can't see much more than a tall figure, but there’s only one person who would walk into his home unannounced like this.

It’s hard to tell who swung first, but it didn’t matter considering neither of their attacks were hitting. Hunter still being unused to his weapon put him at a disadvantage. The demon he was fighting was weak, but knew how to use their gear in ways that made up for it. All it took to get them on the ground was a slight misstep and a smart calculation.

“Dad?”

“Go on, just make it quick.”

A sharp pain in his gut followed by laughter and a distorted voice, “Oh dear child, is that who the poison made you see?” he asks mockingly before continuing to laugh. He pulls the weapon out of him, watching as Sword falls to the ground. He says, “You both deserve this.” before stabbing him once again.

Hunter was caught off guard by the sudden surrender. The fight was a difficult one, but they were fighting. Perhaps there was something more he was missing, but he had to focus and get this over with.

As Sword lays bleeding out before him the air starts to feel tense, and not because of his poison. Without warning Subspace is suddenly thrown into a wall, it almost breaking from the impact. He coughs and takes a moment to regain himself before looking forward and seeing someone holding Sword.

And with one swift movement, it was.

They were gone.

They were gone, lying still, resting.

Scythe steps forward as Hunter stares at the body before him. For the first time since having the ability to feel, he felt nothing. Blank and void. Or perhaps he was feeling so much he just couldn’t feel it. Regardless, he was numb. Trapped. Scythe Picks up one of the gears, “Aw look, baby’s first kill!” She’s about to congratulate him, but without warning a familiar red rope wraps around him and steals him away. ‘SFoTH Damnit!” she huffs, picking up the gears and chasing after Hunter and his captor.

The rope around Hunter lets go as he finds himself next to Katana. ‘So you are the Biograft he mentioned.”

Hunter had questions, but they both knew it wasn’t long before Scythe found them, “My name is Hunter. Who told you about me?”

Katana sighed, “Hyperlaser.” Before Hunter asked anything more he asked, “Why? Why do you join them? They are corrupt. You are a hatchling young and blind. They are clipping you of wings you have yet to grow.”

“For someone I care about.” Biograft stands, readying his weapon.

A few moments pass, Katana processing his words, “I see. Then I shall cut you down as I would any of them.” He begins charging his weapon. Before either can move, Scythe steps in.

“Well, well, well, been a while hasn’t it?” Scythe smiles at Katana.

“Far too long. I'll see to it that your head is permanently severed from your body." He grimaces under his mask.

She chuckles "How violent! It's funny how some things never change." Scythe turns to Hunter, “We’ll leave for now, don’t need to drag the newbie into this! C’mon.” Scythe turns invisible, Hunter copies.

“Your corruption truly knows no bounds,” is the last thing they hear from Katana as they escape back to the church.

This was not good, not in the slightest. Sword was dead yes, but now his father was beating Subspace to a pulp. Venomshank knew he would outlive Sword, he always knew that. Relationships of any kind between gods and mortals never ended happily. But this wasn’t how Sword was supposed to die. This wasn’t when Sword was supposed to die. That boy had so much potential, and was such a kind soul, only to die like this. Venomshank should’ve been faster, he should’ve dropped what he was doing the second something felt off, should’ve trained him better, should’ve spent more time with him, should’ve… Should’ve better shown his care. Showed his love. Showed how Sword is and always will be a part of him. He should’ve actually followed through on his duty and promise to always be there for him.

But he’s already gone. The cause of his death almost gone too. Though Subspace is laying on the ground, coughing and wheezing, something’s wrong. He’s going to do something, but what?

It’s well known that when two phighters sacrifice their gear to the spawn, they obtain a biological child. The SFoTH deities being the exception. So what if one sacrificed their gear to god? A gear is attached to one’s soul, there’s plenty of worth in it. But is it enough for a blessing? Subspace had gone over the possibilities before, it was likely nothing would happen, especially considering the decay starting to corrupt his gear, but what else was there to do? He wasn’t going to just lie there and accept death, he was supposed to be making others do that! So in a last ditch effort, he calls to the only god he thought would respond and offers himself.

“ILLUMINA!!”

The Best Eco-Tech Products for an Energy-Efficient Home

Introduction

The newly developed innovations regarding eco-tech products have become necessary when building an energy-efficient house. Yet such innovation does not only lead to energy consumption reduction but also pulls efforts towards a sustainable future. Well, TechtoIO is forever committed to bringing the latest eco-tech products that make your home smarter, greener, and more performant. Here are the top products to make your house a comfortable and efficient sanctuary.

Now, with the Smart thermostats are one of the game-changers in energy-efficient homes. They learn your habits and optimize the temperature based on your habits and preferences so energy isn’t wasted when you’re not around. Among other smart devices, energy usage reporting with remote control in some popular monitored models include Nest Learning Thermostats and Ecobee SmartThermostat with voice control.

Optimized with significant energy savings, courtesy of smart thermostats, the efficiency of heating and cooling systems can increase. Read to continue link

I saw a post the other day calling criticism of generative AI a moral panic, and while I do think many proprietary AI technologies are being used in deeply unethical ways, I think there is a substantial body of reporting and research on the real-world impacts of the AI boom that would trouble the comparison to a moral panic: while there *are* older cultural fears tied to negative reactions to the perceived newness of AI, many of those warnings are Luddite with a capital L - that is, they're part of a tradition of materialist critique focused on the way the technology is being deployed in the political economy. So (1) starting with the acknowledgement that a variety of machine-learning technologies were being used by researchers before the current "AI" hype cycle, and that there's evidence for the benefit of targeted use of AI techs in settings where they can be used by trained readers - say, spotting patterns in radiology scans - and (2) setting aside the fact that current proprietary LLMs in particular are largely bullshit machines, in that they confidently generate errors, incorrect citations, and falsehoods in ways humans may be less likely to detect than conventional disinformation, and (3) setting aside as well the potential impact of frequent offloading on human cognition and of widespread AI slop on our understanding of human creativity...

What are some of the material effects of the "AI" boom?

Guzzling water and electricity

The data centers needed to support AI technologies require large quantities of water to cool the processors. A to-be-released paper from the University of California Riverside and the University of Texas Arlington finds, for example, that "ChatGPT needs to 'drink' [the equivalent of] a 500 ml bottle of water for a simple conversation of roughly 20-50 questions and answers." Many of these data centers pull water from already water-stressed areas, and the processing needs of big tech companies are expanding rapidly. Microsoft alone increased its water consumption from 4,196,461 cubic meters in 2020 to 7,843,744 cubic meters in 2023. AI applications are also 100 to 1,000 times more computationally intensive than regular search functions, and as a result the electricity needs of data centers are overwhelming local power grids, and many tech giants are abandoning or delaying their plans to become carbon neutral. Google’s greenhouse gas emissions alone have increased at least 48% since 2019. And a recent analysis from The Guardian suggests the actual AI-related increase in resource use by big tech companies may be up to 662%, or 7.62 times, higher than they've officially reported.

Exploiting labor to create its datasets

Like so many other forms of "automation," generative AI technologies actually require loads of human labor to do things like tag millions of images to train computer vision for ImageNet and to filter the texts used to train LLMs to make them less racist, sexist, and homophobic. This work is deeply casualized, underpaid, and often psychologically harmful. It profits from and re-entrenches a stratified global labor market: many of the data workers used to maintain training sets are from the Global South, and one of the platforms used to buy their work is literally called the Mechanical Turk, owned by Amazon.

From an open letter written by content moderators and AI workers in Kenya to Biden: "US Big Tech companies are systemically abusing and exploiting African workers. In Kenya, these US companies are undermining the local labor laws, the country’s justice system and violating international labor standards. Our working conditions amount to modern day slavery."

Deskilling labor and demoralizing workers

The companies, hospitals, production studios, and academic institutions that have signed contracts with providers of proprietary AI have used those technologies to erode labor protections and worsen working conditions for their employees. Even when AI is not used directly to replace human workers, it is deployed as a tool for disciplining labor by deskilling the work humans perform: in other words, employers use AI tech to reduce the value of human labor (labor like grading student papers, providing customer service, consulting with patients, etc.) in order to enable the automation of previously skilled tasks. Deskilling makes it easier for companies and institutions to casualize and gigify what were previously more secure positions. It reduces pay and bargaining power for workers, forcing them into new gigs as adjuncts for its own technologies.

I can't say anything better than Tressie McMillan Cottom, so let me quote her recent piece at length: "A.I. may be a mid technology with limited use cases to justify its financial and environmental costs. But it is a stellar tool for demoralizing workers who can, in the blink of a digital eye, be categorized as waste. Whatever A.I. has the potential to become, in this political environment it is most powerful when it is aimed at demoralizing workers. This sort of mid tech would, in a perfect world, go the way of classroom TVs and MOOCs. It would find its niche, mildly reshape the way white-collar workers work and Americans would mostly forget about its promise to transform our lives. But we now live in a world where political might makes right. DOGE’s monthslong infomercial for A.I. reveals the difference that power can make to a mid technology. It does not have to be transformative to change how we live and work. In the wrong hands, mid tech is an antilabor hammer."

Enclosing knowledge production and destroying open access

OpenAI started as a non-profit, but it has now become one of the most aggressive for-profit companies in Silicon Valley. Alongside the new proprietary AIs developed by Google, Microsoft, Amazon, Meta, X, etc., OpenAI is extracting personal data and scraping copyrighted works to amass the data it needs to train their bots - even offering one-time payouts to authors to buy the rights to frack their work for AI grist - and then (or so they tell investors) they plan to sell the products back at a profit. As many critics have pointed out, proprietary AI thus works on a model of political economy similar to the 15th-19th-century capitalist project of enclosing what was formerly "the commons," or public land, to turn it into private property for the bourgeois class, who then owned the means of agricultural and industrial production. "Open"AI is built on and requires access to collective knowledge and public archives to run, but its promise to investors (the one they use to attract capital) is that it will enclose the profits generated from that knowledge for private gain.

AI companies hungry for good data to train their Large Language Models (LLMs) have also unleashed a new wave of bots that are stretching the digital infrastructure of open-access sites like Wikipedia, Project Gutenberg, and Internet Archive past capacity. As Eric Hellman writes in a recent blog post, these bots "use as many connections as you have room for. If you add capacity, they just ramp up their requests." In the process of scraping the intellectual commons, they're also trampling and trashing its benefits for truly public use.

Enriching tech oligarchs and fueling military imperialism

The names of many of the people and groups who get richer by generating speculative buzz for generative AI - Elon Musk, Mark Zuckerberg, Sam Altman, Larry Ellison - are familiar to the public because those people are currently using their wealth to purchase political influence and to win access to public resources. And it's looking increasingly likely that this political interference is motivated by the probability that the AI hype is a bubble - that the tech can never be made profitable or useful - and that tech oligarchs are hoping to keep it afloat as a speculation scheme through an infusion of public money - a.k.a. an AIG-style bailout.

In the meantime, these companies have found a growing interest from military buyers for their tech, as AI becomes a new front for "national security" imperialist growth wars. From an email written by Microsoft employee Ibtihal Aboussad, who interrupted Microsoft AI CEO Mustafa Suleyman at a live event to call him a war profiteer: "When I moved to AI Platform, I was excited to contribute to cutting-edge AI technology and its applications for the good of humanity: accessibility products, translation services, and tools to 'empower every human and organization to achieve more.' I was not informed that Microsoft would sell my work to the Israeli military and government, with the purpose of spying on and murdering journalists, doctors, aid workers, and entire civilian families. If I knew my work on transcription scenarios would help spy on and transcribe phone calls to better target Palestinians, I would not have joined this organization and contributed to genocide. I did not sign up to write code that violates human rights."

So there's a brief, non-exhaustive digest of some vectors for a critique of proprietary AI's role in the political economy. tl;dr: the first questions of material analysis are "who labors?" and "who profits/to whom does the value of that labor accrue?"

For further (and longer) reading, check out Justin Joque's Revolutionary Mathematics: Artificial Intelligence, Statistics and the Logic of Capitalism and Karen Hao's forthcoming Empire of AI.

Ron Rice was ordered to bail out, but this happened to stop him …

Major Tom Pugh(Pilot) and Major Ronnie Rice(RSO) were airborne in SR-71 #978 on May 15, 1972, whenever everything you can think of that could go wrong went wrong.

They are flying a routine giant-scale mission when Tom becomes concerned about a strange hum in the interphone system. The system seems to go back to normal. The flight continues. Tom maintains a Mach 3.2 at 79,500 feet when a generator fails. This failure was a mandatory abort; just over one minute later, the other generator failed, and then they were in real trouble. Emergency AC/DC power did not come online; the fuel pumps stopped pumping the JP7 fuel to the engines without electrical power and lacked pump pressure to pump the fuel. Both engines stopped, causing them to flame out.

To add to the crew's grief, the inlet spikes went full forward, and the 978 Began pitching and rolling; they knew that the aircraft was approaching the limits of the supersonic flight envelope.

Tom instructed Ron to get ready to bail, but the intercom system failed.

Tom held the stick gently while struggling to control the jet without causing further pilot-induced oscillations. While also trying to reach the all-import standby electrical switch on his right-hand panel. To get that critical switch, he had to move his left hand off the throttles and onto the control stick to free his right hand to restore some of the electrical power to the airplane. Tom miraculously pulled the switch to retain power. Mission accomplished! Having descended to 41,000 feet slow to Mach one, he got the generator back online, and both engines relit. 🔥🔥

Tom crossed Laos to recover at Udorn RTAFB without further problems. Post-flight analysis showed that Tom and Ron overflown Hanoi at 41,000 feet! They had been fortunate, considering the number of SAMS that circled the city. It appeared that the Vietnamese radio operators and their Soviet advisors had been asleep at the switch during the 978 mid-altitude pass over one of the best-defended cities in the world,

Aftermath to this story was told by author, Jim Goodall this is fascinating;

This is Col. Tom Pugh’s comments in an interview I had with him on overflying Hanoi at 41k feet under Mach 1. Tom said he was always curious why the North Vietnam air defense sector chief didn’t try to shoot him down.

Some twenty years later, Tom was in Washington DC for a formal function, and in attendance was the North Vietnam general in charge of the air defense sector of Hanoi during Tom’s time flying SR-71s out of Kadena.

Tom tracked the General down, to ask him a question. After a few minutes of just chewing the fat, Tom asked him the big question he’d had for the twenty-plus years of the overflight.

The General replied that he and his staff just knew this was a ploy to fire at the SR-71 that was booby-trapped and loaded with a nuclear weapon. And if it was hit, the nuke would detonate directly over Hanoi.

Tom busted out laughing and told the General he was in a broken SR-71, was lost, as all his electronics were offline, and was flying with a ‘Pep Boys�� styled compass, and at the time, had no idea where he was. Tom said they both ended up laughing, then headed to the bar for a well-deserved toast and drink to new friends.

Tom and Ron were each awarded air medals for successfully landing their disabled aircraft.SR-71 #978 “The bunny” had pulled off a lucky escape from what appeared to be an easy shootdown situation. The SR 71 with the bunny, her luck wouldn’t last for long as her days were numbered 😞 She was lost on Thursday, July 20, 1972, while attempting to land at Kadena AFB during extreme crosswinds.

Linda Sheffield

Source, Lockheed Blackbird: Beyond the Secret missions, The missing chapters by Paul Crickmore

Picture #two is Ronnie Rice with his wife, Kathy, talking to my Dad, Butch Sheffield.

@Habubrats71 via X

"The amount of electricity generated by the UK’s gas and coal power plants fell by 20% last year, with consumption of fossil fuels at its lowest level since 1957.

Not since Harold Macmillan was the UK prime minister and the Beatles’ John Lennon and Paul McCartney met for the first time has the UK used less coal and gas.

The UK’s gas power plants last year generated 31% of the UK’s electricity, or 98 terawatt hours (TWh), according to a report by the industry journal Carbon Brief, while the UK’s last remaining coal plant produced enough electricity to meet just 1% of the UK’s power demand or 4TWh.

Fossil fuels were squeezed out of the electricity system by a surge in renewable energy generation combined with higher electricity imports from France and Norway and a long-term trend of falling demand.

Higher power imports last year were driven by an increase in nuclear power from France and hydropower from Norway in 2023. This marked a reversal from 2022 when a string of nuclear outages in France helped make the UK a net exporter of electricity for the first time.

Carbon Brief found that gas and coal power plants made up just over a third of the UK’s electricity supplies in 2023, while renewable energy provided the single largest source of power to the grid at a record 42%.

It was the third year this decade that renewable energy sources, including wind, solar, hydro and biomass power, outperformed fossil fuels [in the UK], according to the analysis. Renewables and Britain’s nuclear reactors, which generated 13% of electricity supplies last year, helped low-carbon electricity make up 55% of the UK’s electricity in 2023.

[Note: "Third year this decade" refers to the UK specifically, not global; there are several countries that already run on 100% renewable energy, and more above 90% renewable. Also, though, there have only been four years this decade so far! So three out of four is pretty good!]

Dan McGrail, the chief executive of RenewableUK, said the data shows “the central role that wind, solar and other clean power sources are consistently playing in Britain’s energy transition”.

“We’re working closely with the government to accelerate the pace at which we build new projects and new supply chains in the face of intense global competition, as everyone is trying to replicate our success,” McGrail said.

Electricity from fossil fuels was two-thirds lower in 2023 compared with its peak in 2008, according to Carbon Brief. It found that coal has dropped by 97% and gas by 43% in the last 15 years.

Coal power is expected to fall further in 2024 after the planned shutdown of Britain’s last remaining coal plant in September. The Ratcliffe on Soar coal plant, owned by the German utility Uniper, is scheduled to shut before next winter after generating power for over 55 years.

Renewable energy has increased sixfold since 2008 as the UK has constructed more wind and solar farms, and the large Drax coal plant has converted some of its generating units to burn biomass pellets.

Electricity demand has tumbled by 22% since its peak in 2005, according to the data, as part of a long-term trend driven by more energy efficient homes and appliances as well as a decline in the UK’s manufacturing sector.

Demand for electricity is expected to double as the UK aims to cut emissions to net zero by 2050 because the plan relies heavily on replacing fossil fuel transport and heating with electric alternatives.

In recent weeks [aka at the end of 2023], offshore wind developers have given the green light to another four large windfarms in UK waters, including the world’s largest offshore windfarm at Hornsea 3, which will be built off the North Yorkshire coast by Denmark’s Ørsted."

-via The Guardian, January 2, 2024

Artificial intelligence systems could account for nearly half of datacentre power consumption by the end of this year, analysis has revealed. The estimates by Alex de Vries-Gao, the founder of the Digiconomist tech sustainability website, came as the International Energy Agency forecast that AI would require almost as much energy by the end of this decade as Japan uses today. De Vries-Gao’s calculations, to be published in the sustainable energy journal Joule, are based on the power consumed by chips made by Nvidia and Advanced Micro Devices that are used to train and operate AI models. The paper also takes into account the energy consumption of chips used by other companies, such as Broadcom. The IEA estimates that all data centres – excluding mining for cryptocurrencies – consumed 415 terawatt hours (TWh) of electricity last year. De Vries-Gao argues in his research that AI could already account for 20% of that total.

AI could account for nearly half of datacentre power usage ‘by end of year’ | Green economy | The Guardian