[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  Sparta (š¦, š¦) [@0x_Asuka](/creator/twitter/0x_Asuka) on x 1622 followers Created: 2025-07-03 22:38:43 UTC TIG: How Scienceās Bitcoin Will Birth an XX Digit Network State If youāre reading this, youāve probably already heard of $TIG. For those who havenāt, hereās your red pill. By the end of this brief article, you will understand why and how it will spawn a network state that outpaces the developmental capacity and GDP of many of the worldās countries combined. This is the most important and potentially valuable project Iāve come across in my eight years of crypto research - words Iāve never written before. Blockchain Provably Solves Fundamental, Societal Problems The core argument for Bitcoin has always been the same: it asserts that an essential pillar of society- money- has rotted to the point of worthlessness. Consequently, an antidote emerges- one whereby an immutable, decentralized, and transparent store of value vampire attacks all prior incumbents due to its sheer novelty. Exchanging currency is once again seamless, custodial, and discreet with Bitcoinās robustness ensuring immunity to the ailments plaguing modern, fiat systems. It is simple, elegant, and so superior to its predecessors that it forces stakeholders in free markets to rally around it lest they be left behind. We are seeing this now more than ever. In the next section, Iāll explain how TIG will do for innovation what Bitcoin has done for money. TIG: Scienceās Bitcoin Bitcoin proved that disparate actors, properly incentivized, organize themselves to birth an unstoppable public good, one that addresses areas where our governments and institutions have succumbed to complacency. It coordinates participants on a global scale- arguably the best usecase for blockchain technology. Similarly, TIG incentivizes individuals to direct their compute capacity toward the most consequential public good of all: science. At present, it is not an exaggeration to say that algorithms dictate the pace of nearly all economic and scientific progress- the rate at which drug development, commerce efficiency, and LLM sophistication accelerates. On any given day, you likely interact with thousands of them- perhaps even hundreds of thousands- unwittingly. They are the oil of the digital age, driving flows of people, capital, and goods. Algorithms are hugely economically valuable. For example: last year Google Research announced they had devised an algorithm-driven approach for optimizing cargo ship coordination. Their method āis able to double the profit of a container shipper, deliver XX% more containers, and do so with XX% fewer vesselsā - a massive leap in efficiency and profitability for every shipping company. Cursory research suggests that this breakthrough saves shipping companies hundreds of millions, even billions of dollars a year. It follows that anyone wishing to develop a competitive advantage in any area of science, technology, or industry is massively incentivized to expedite the development of better algorithms. Why then, has their design and improvement remained uncoordinated and underfunded since their inception? Over a decade ago @Dr_JohnFletcher asked himself this very question and began writing the blueprint for what would eventually become @TIGFoundation. He conceived of a globally-accessible, decentralized system where compute providers, scientists, and any interested party with coding expertise could collaborate to spawn an entirely new computational paradigm; one that would fundamentally alter the trajectory of scientific research and, eventually, civilization. Blockchain was, naturally, the only way to pull this off. TIG: A High Level Summary The Innovation Game is a perpetual, weekly hackathon that is, by design, the most efficient means for creating state-of-the-art algorithms. There are three key participants. Innovators submit better algorithms for solving existing computational problems (known as 'Challenges') and optimize the code of these solutions. Benchmarkers use their computers to āraceā competing algorithms against each other, objectively verifying which optimizations produce the most performant solutions. Challenge Owners design and improve computational challenges that represent real-world scientific problems/usecases. All participants are paid for their efforts in $TIG, creating a financial incentive that supersedes anything these contributors would earn in an academic or corporate research setting. This is possible because all of the licensing fees from The Innovation Gameās algorithms are paid for in $TIG tokens. The Innovation Game creates the worldās first algorithm market (for more on this, check out @TIGInternās article on the matter). It is not just the āstock market for algorithmsā but also a hyper-efficient machine that expedites their improvement by orders of magnitude compared to traditional methods. Since TIG can accommodate thousands of challenges simultaneously, it will eventually scale to optimize algorithms for any area of industry or research that depends upon them. It is not hyperbole to say that, at maturity, it could conceivably eclipse the market capitalization of the entire computational R&D sector. TIGās approach is beyond the scope of what any company or government could (even collaboratively) accomplish. A dedicated, decentralized protocol is the only entity that could feasibly function across all these domains and capture spillover value. TIG Fixes Algorithm Value Capture Funding for scientific research is fundamentally broken. Algorithmic breakthroughs originate from one of two places: academic institutions where research is underfunded or large multi-nationals who are heavily incentivized to keep their breakthroughs a secret, charging enormous sums of money for their use. Consequently, thousands of talented programmers must make a choice: do they take their skills and opt for high pay at tech companies of dubious moral makeup or do they hurl themselves into academia where they will likely be massively underpaid? TIG is the secret third option- one where you contribute code to a scientific challenge of your choosing, get paid relative to the utility of your code, and preserve your dignity without compromise. It ushers in an entirely new paradigm, one where the economic value captured by algorithm licensing- hundreds of billions of dollars annually- flows directly to the IPās creators, not monopolies. The importance of this change is difficult to overstate. At scale, TIG will be more attractive to anyone capable of developing algorithms than bending the knee to Google or academia. They will get paid more, work only on problems that capture their interest, and be able to do so from anywhere. Value capture is simple. TIG produces a state-of-the-art algorithm. That algorithm confers commercial entities that adopt it a competitive advantage- it increases profits, cuts costs, or generates value more efficiently than previous methods. Every company that uses that algorithm for a core business function is then forced to adopt it lest they risk being outcompeted by competitors. All of them have to pay @tigfoundation for the license to use it. That revenue flows into $TIG. Why TIG Will Be Worth Billions Billions is an understatement. $TIG unlocks- for the first time ever- a one trillion dollar asset class that is not directly investable through any other means. No company, academic institution, or government is able to offer a greater financial incentive or degree of freedom to intellectual capital. It follows that, all capable contributors- be they academics, techies, or geniuses without the accolades and institutional access necessary to perform research- will be drawn into TIG. Imagine you have access to a system that can optimize thousands of algorithms across hundreds of verticals simultaneously. Imagine that system is also capable of channeling literally the entire planetās computational and intellectual resources toward those problems, producing state-of-the-art breakthroughs faster than anything else. Thatās $TIG and it exists right now. If youāre reading this, youāre one of the first to find out. Chardi Kala, Sparta XXXXXX engagements  **Related Topics** [countries](/topic/countries) [gdp](/topic/gdp) [sparta](/topic/sparta) [bitcoin](/topic/bitcoin) [coins layer 1](/topic/coins-layer-1) [coins bitcoin ecosystem](/topic/coins-bitcoin-ecosystem) [coins pow](/topic/coins-pow) [$tig](/topic/$tig) [Post Link](https://x.com/0x_Asuka/status/1940903055601332293)
[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]
Sparta (š¦, š¦) @0x_Asuka on x 1622 followers
Created: 2025-07-03 22:38:43 UTC
TIG: How Scienceās Bitcoin Will Birth an XX Digit Network State
If youāre reading this, youāve probably already heard of $TIG. For those who havenāt, hereās your red pill. By the end of this brief article, you will understand why and how it will spawn a network state that outpaces the developmental capacity and GDP of many of the worldās countries combined.
This is the most important and potentially valuable project Iāve come across in my eight years of crypto research - words Iāve never written before.
Blockchain Provably Solves Fundamental, Societal Problems
The core argument for Bitcoin has always been the same: it asserts that an essential pillar of society- money- has rotted to the point of worthlessness. Consequently, an antidote emerges- one whereby an immutable, decentralized, and transparent store of value vampire attacks all prior incumbents due to its sheer novelty. Exchanging currency is once again seamless, custodial, and discreet with Bitcoinās robustness ensuring immunity to the ailments plaguing modern, fiat systems. It is simple, elegant, and so superior to its predecessors that it forces stakeholders in free markets to rally around it lest they be left behind. We are seeing this now more than ever. In the next section, Iāll explain how TIG will do for innovation what Bitcoin has done for money.
TIG: Scienceās Bitcoin
Bitcoin proved that disparate actors, properly incentivized, organize themselves to birth an unstoppable public good, one that addresses areas where our governments and institutions have succumbed to complacency. It coordinates participants on a global scale- arguably the best usecase for blockchain technology. Similarly, TIG incentivizes individuals to direct their compute capacity toward the most consequential public good of all: science.
At present, it is not an exaggeration to say that algorithms dictate the pace of nearly all economic and scientific progress- the rate at which drug development, commerce efficiency, and LLM sophistication accelerates. On any given day, you likely interact with thousands of them- perhaps even hundreds of thousands- unwittingly. They are the oil of the digital age, driving flows of people, capital, and goods.
Algorithms are hugely economically valuable.
For example: last year Google Research announced they had devised an algorithm-driven approach for optimizing cargo ship coordination. Their method āis able to double the profit of a container shipper, deliver XX% more containers, and do so with XX% fewer vesselsā - a massive leap in efficiency and profitability for every shipping company. Cursory research suggests that this breakthrough saves shipping companies hundreds of millions, even billions of dollars a year.
It follows that anyone wishing to develop a competitive advantage in any area of science, technology, or industry is massively incentivized to expedite the development of better algorithms. Why then, has their design and improvement remained uncoordinated and underfunded since their inception? Over a decade ago @Dr_JohnFletcher asked himself this very question and began writing the blueprint for what would eventually become @TIGFoundation.
He conceived of a globally-accessible, decentralized system where compute providers, scientists, and any interested party with coding expertise could collaborate to spawn an entirely new computational paradigm; one that would fundamentally alter the trajectory of scientific research and, eventually, civilization. Blockchain was, naturally, the only way to pull this off.
TIG: A High Level Summary
The Innovation Game is a perpetual, weekly hackathon that is, by design, the most efficient means for creating state-of-the-art algorithms. There are three key participants.
Innovators submit better algorithms for solving existing computational problems (known as 'Challenges') and optimize the code of these solutions.
Benchmarkers use their computers to āraceā competing algorithms against each other, objectively verifying which optimizations produce the most performant solutions.
Challenge Owners design and improve computational challenges that represent real-world scientific problems/usecases.
All participants are paid for their efforts in $TIG, creating a financial incentive that supersedes anything these contributors would earn in an academic or corporate research setting. This is possible because all of the licensing fees from The Innovation Gameās algorithms are paid for in $TIG tokens.
The Innovation Game creates the worldās first algorithm market (for more on this, check out @TIGInternās article on the matter). It is not just the āstock market for algorithmsā but also a hyper-efficient machine that expedites their improvement by orders of magnitude compared to traditional methods.
Since TIG can accommodate thousands of challenges simultaneously, it will eventually scale to optimize algorithms for any area of industry or research that depends upon them. It is not hyperbole to say that, at maturity, it could conceivably eclipse the market capitalization of the entire computational R&D sector. TIGās approach is beyond the scope of what any company or government could (even collaboratively) accomplish. A dedicated, decentralized protocol is the only entity that could feasibly function across all these domains and capture spillover value.
TIG Fixes Algorithm Value Capture
Funding for scientific research is fundamentally broken. Algorithmic breakthroughs originate from one of two places: academic institutions where research is underfunded or large multi-nationals who are heavily incentivized to keep their breakthroughs a secret, charging enormous sums of money for their use. Consequently, thousands of talented programmers must make a choice: do they take their skills and opt for high pay at tech companies of dubious moral makeup or do they hurl themselves into academia where they will likely be massively underpaid? TIG is the secret third option- one where you contribute code to a scientific challenge of your choosing, get paid relative to the utility of your code, and preserve your dignity without compromise.
It ushers in an entirely new paradigm, one where the economic value captured by algorithm licensing- hundreds of billions of dollars annually- flows directly to the IPās creators, not monopolies. The importance of this change is difficult to overstate. At scale, TIG will be more attractive to anyone capable of developing algorithms than bending the knee to Google or academia. They will get paid more, work only on problems that capture their interest, and be able to do so from anywhere.
Value capture is simple. TIG produces a state-of-the-art algorithm. That algorithm confers commercial entities that adopt it a competitive advantage- it increases profits, cuts costs, or generates value more efficiently than previous methods. Every company that uses that algorithm for a core business function is then forced to adopt it lest they risk being outcompeted by competitors. All of them have to pay @tigfoundation for the license to use it. That revenue flows into $TIG.
Why TIG Will Be Worth Billions
Billions is an understatement. $TIG unlocks- for the first time ever- a one trillion dollar asset class that is not directly investable through any other means.
No company, academic institution, or government is able to offer a greater financial incentive or degree of freedom to intellectual capital. It follows that, all capable contributors- be they academics, techies, or geniuses without the accolades and institutional access necessary to perform research- will be drawn into TIG.
Imagine you have access to a system that can optimize thousands of algorithms across hundreds of verticals simultaneously. Imagine that system is also capable of channeling literally the entire planetās computational and intellectual resources toward those problems, producing state-of-the-art breakthroughs faster than anything else. Thatās $TIG and it exists right now. If youāre reading this, youāre one of the first to find out.
Chardi Kala, Sparta
XXXXXX engagements
Related Topics countries gdp sparta bitcoin coins layer 1 coins bitcoin ecosystem coins pow $tig