#intel
https://old.bitchute.com/video/cxKkUaPCiXEw/
#gemmaodoherty
#acute #toxic #air #poisoning by #Intel chips are not clean
we are under full attack by poisoning
#Gemma Video - GOYTIM TV FLYER INTRO - WOW!!! Nov 28, 2024
Whomp-whomp: #AI PCs make users less #productive - People just don't know how to wrangle #chatbots into useful things, #Intel says
Source: https://www.theregister.com/2024/11/22/ai_pcs_productivity/
As the #study itself explains: "Many AI users spend a long time identifying how best to communicate with AI tools to get the desired answers or response. Organizations providing AI-assisted products must offer greater #education in order to truly showcase the potential of 'everyday AI'."
#news #technology #Software #Problem #economy #fail #user #work #business
Choose your words wisely - or it may cost you...
Intel CEO Lost A 40% Discount For TSMC's Latest Chip Tech After Taiwan Remarks - Report https://wccftech.com/intel-ceo-lost-a-40-discount-for-tsmcs-latest-chip-tech-after-taiwan-remarks-report/
Intel CEO Patrick Gelsinger's comments about the Taiwan Semiconductor Manufacturing Company's (TSMC) manufacturing presence in China soured relations between the two firms and eventually led to Intel missing out on key discounts offered by TSMC, according to a fresh report from Reuters. Intel is currently focusing on manufacturing chips with its 18A manufacturing process, and Reuters' report shares that before Gelsinger's comments, TSMC was offering Intel a whopping 40% discount for its 3 nanometer process manufacturing family. However, the Taiwanese firm decided to withdraw the offer following Gelsinger's remarks.
As per Reuters, in 2021, TSMC had offered Intel a stunning 40% discount for the 3 nanometer technology. Back then, 3 nanometers was TSMC's leading edge chip manufacturing process. One wafer cost $23,000 back then, and TSMC had offered Intel a 40% discount to bring the price to roughly $14,000.
However, back then, Intel was moving full speed ahead to attract US government subsidies for its contract manufacturing and advanced technology push. As part of the effort, Gelsinger was eagerly pointing out the geopolitical risks associated with advanced chip manufacturing being concentrated in Taiwan.
Some of his most controversial remarks, which ignited a back and forth with TSMC's outspoken founder, Dr. Morris Chang, were made at the Fortune Brainstorm Tech Conference in Half Moon Bay, California. At the event, Gelsinger commented that "Taiwan is not a stable place" adding that "Does that make you feel more comfortable or less?"
I bet the cashed in the EU check and write off the expenses when they declare their taxes (if they even do so) Chipmaker Intel has put the construction of its €30 billion factory in the southwest of Magdeburg on hold and postponed the start of construction by two years.
Chipmaker Intel has put the construction of its €30 billion factory in the southwest of Magdeburg, Germany on hold and postponed the start of construction by two years. This was announced by company CEO Patrick Paul Gelsinger. Nobody knows what will happen in two years. It is more than questionable whether Intel will even complete the two chip factories originally planned in the state capital of Saxony-Anhalt. Construction of the Intel plant in the Polish city of Wroclaw has also been suspended.
#Intel #Europe #Germany #EU
https://www.wsws.org/en/articles/2024/09/25/bxtz-s25.html
#Intel Solidifies $3.5 Billion #Deal to Make Chips for #Military
The secretive program, called #SecureEnclave, seeks to establish production for advanced chips with military and #intelligence applications. It spans multiple states, including a #manufacturing facility in #Arizona,
#news #usa #technology #economy #politics #dod #Pentagon #NSA #cia #cpu
"How Intel missed the iPhone: XScale era".
We all know Intel missed the transition from computers to mobile devices and the transition from x86 CPUs to ARM CPUs. But what I didn't realize is that Intel was once dominant in ARM CPUs. They didn't call them "ARM", they called them "XScale", but they were ARM CPUs. Intel called them StrongARM -- a name that actually came from its acquisition of Digital Equipment Corporation (DEC)'s semiconductor manufacturing operations which had licensed ARM to make the DEC StrongARM chip -- and later XScale. So the question becomes, what did Intel do that blew its lead in ARM?
ARM, incidentally, stands for "Acorn RISC Machine", and RISC stands for "reduced instruction set computing".
This article is long and detailed, so I'm just going to jump straight to what seems to me like the key mistake. To me it seems like the key mistake was adding "single-instruction-multiple-data" (SIMD) instructions to the ARM design.
This may sound like something too subtle to have had such a major impact on Intel's business. But from that article, what I gathered is that this had two effects: first, it made customers worry that Intel, by marketing a non-startard ARM instruction set (the regular instructions plus Intel's own MMX instructions (MMX allegedly stood for "multimedia extensions")), was trying to cause single-vendor lock-in, and second, the SIMD instructions were actually worse than putting a dedicated digital signal processor (DSP) chip in the phone.
At first glance it might not be obvious why having a dedicated DSP chip would be better than adding SIMD instructions to the CPU to carrying out the same signal processing tasks. But a lot of what a mobile phone does is decode and encode radio signals and voice signals, and a dedicated DSP chip can do these tasks more efficiently. It can be highly optimized (and have a specialized instruction set) for the most repetitive computations, unlike a general-purpose set of SIMD instructions. The DSP can have lower latency, due to the lack of need to load and unload application code that uses the SIMD instructions. The DSP gives predictable and deterministic performance, unlike a CPU whose behavior can vary depending on how many applications are running and what sort of load they are putting on the CPU. With the digital signal processing workload offloaded to a DSP chip, the CPU, in turn, can be more responsive to the user, reducing the latency of the user experience and making the user experience more interactive.
Acorn responded with ARM designs that had SIMD instructions, so customers could have them without using Intel XScale and risking single-vendor-lock-in with Intel, but mobile phone makers went with dedicated DSP chips. Crucially, Apple chose an ARM chip manufactured by Samsung for the original iPhone when it launched in 2007. This was shortly after Intel, realizing it had fallen behind in ARM, decided to double-down on its x86 business and sold off its XScale manufacturing unit (to a company called Marvell). In this manner, Intel went from the dominant ARM company to being out of the ARM business entirely.
Today, we see mobile phone makers adding dedicated neural network chips.
#Intel has not halted sales or clawed back any inventory. It will not do a recall, period. The #company is not currently commenting on whether or how it might extend its #warranty.
source: https://www.theverge.com/2024/7/26/24206529/intel-13th-14th-gen-crashing-instability-cpu-voltage-q-a
Why would anyone ever buy from them again with these business practices? 🤔
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Нейроморфный компьютер Hala Point: мозг совы, по ощущениям — человеческий
Нейроморфные компьютеры мимикрируют под мозг, чтобы преодолеть горизонты эффективности и скорости. Они работают за гранью традиционных вычислений. По крайней мере, так пишут в описаниях на сайте производителей. На деле попытки именно повторить работу мозга в основном проваливаются, а прорывы происходят в тот момент, когда интеллект удаётся искусно подделать. Однако провалы дают столько знаний, что хватает для прорывов. Самый мощный в мире нейроморфный компьютер […]
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