In a quiet but monumental shift, chip design is starting to look like a less expensive, transparent, and worldwide tournament. Instead of closed laboratories on the outskirts of some country funded by large corporations with huge finances, engineers can now openly compete against each other in an environment where performance determines who wins. This is the industry ChipForge is building—a genuinely decentralized hardware network where the existing boundaries of silicon design are eliminated.
What is ChipForge by the way? It is the world’s first-ever decentralized chip-design project that introduces a more global, open, participatory, and less expensive pathway. Operating as Bittensor Subnet SN84 and developed as part of the TATSU ecosystem, ChipForge’s approach to chip design is not speculative, it revolves around real-world competitions that produce silicon-ready hardware.
Ordinarily, chip design is one of the most expensive processes in technology. Not only is it quite complex as it entails following a set of guidelines, but it is ridiculously expensive as mentioned. An average AI system-on-chip (SOC) could require hundreds of millions of dollars to design, and advanced ones like the 5-nanometer and 2-nanometer systems could exceed $500 million to $725 million, depending on a few factors. This level of cost only means one thing—participation is limited. A few groups of corporations with overflowing budgets control the industry.
ChipForge is replacing this existing structure with an incentive-driven global performance market where engineers or “miners” as they are called in the ecosystem earn rewards for the best design. Miners from across the globe submit design solutions and validators evaluate them based on a set of industry standards such as the professional-grade EDA (Electronic Design Automation) tool and FPGA deployment RTL output. The designs are measured and judged based on these criteria:
Only the top-performing designs based on the aforementioned standards and criteria are rewarded in alpha tokens.
ChipForge’s framework is built on RISC-V, an open-source instruction set architecture that is rapidly gaining global traction for its long list of uses. Recognized for powering diverse applications such as IOT devices, wearables, smartphones, automotive systems, etc., this architecture is currently in use by NVIDIA and supports its CUDA compatibility. It doesn’t end there: Intel has set aside an enormous $1 billion to expand the RISC-V ecosystem.
By leveraging this architecture, ChipForge avoids licensing barriers that traditionally halt innovation. Engineers are free to optimize, modify, and specialize processors without negotiating access or paying royalties. This is what makes global chip design viable.
ChipForge’s incentive-driven performance model has already produced tangible results. The decentralized competition has delivered an industrial-grade RISC-V processor with integrated cryptographic capabilities. This is not theoretical as it has produced full synthesizable RTL ready for FPGA deployment and even future fabrication.
The premier decentralized chip-design project is tilting towards hardware-software co-design, where not only the chip architecture but also the compilers, runtimes, and AI kernels evolve through open competitions. The next phase of the ChipForge roadmap is a focus on Edge AI accelerator development, particularly NPUs (Neural Processing Units) built for low power consumption, low latency, and compactness.
ChipForge is also preparing to transition from validation to physical production through Google’s OpenMPW shuttles, enabling engineers to move designs from FPGA prototypes into real silicon. Security is not left out, the project plans to integrate post-quantum cryptographic capabilities, promoting long-term resilience as quantum computing advances.
ChipForge introduces a new concept to the industry: hardware design fueled by global decentralized competition rather than centralized control. It lowers the existing barriers to entry, reduces costs significantly, and redirects innovation into measurable outcomes.
Since the next phase of AI belongs to machines and autonomous systems, the chips powering these systems cannot remain locked up in some obscure laboratories controlled by a few corporations. It should be open, participatory, competitive, challenging, and globally coordinated. That’s what ChipForge is doing.
CoinPedia has been delivering accurate and timely cryptocurrency and blockchain updates since 2017. All content is created by our expert panel of analysts and journalists, following strict Editorial Guidelines based on E-E-A-T (Experience, Expertise, Authoritativeness, Trustworthiness). Every article is fact-checked against reputable sources to ensure accuracy, transparency, and reliability. Our review policy guarantees unbiased evaluations when recommending exchanges, platforms, or tools. We strive to provide timely updates about everything crypto & blockchain, right from startups to industry majors.
All opinions and insights shared represent the author's own views on current market conditions. Please do your own research before making investment decisions. Neither the writer nor the publication assumes responsibility for your financial choices.
Sponsored content and affiliate links may appear on our site. Advertisements are marked clearly, and our editorial content remains entirely independent from our ad partners.
Bitcoin (BTC) price has rebounded towards $70,000 on Tuesday, February 10, during the North American…
A growing online debate about whether Bitcoin had the “fairest launch in history” has taken…
Fresh claims circulating in the crypto market suggest that alleged leaked documents and institutional reports…
After the recent crypto market correction, analysts are monitoring altcoins to determine whether prices are…
The Stellar price has a habit of moving when nobody’s watching. And right now, the…
The price of Aster (ASTER) jumped more than 10% in the past 24 hours, rising…
