It was June, the beginning of summer. On a drowsy afternoon, the boss walked into the lab with a heavy expression and called us into the small dark room... The brothers and sisters were startled, what was going on? After looking at each other, we all reviewed the crimes we had recently committed in secret, wondering what had made the teacher activate the dark judgment mode? We looked at the teacher, searching for any strange light in his eyes... Then we heard him speak slowly:
"Students... I have a sad news, the lab is short of funds, I decide to..."
Teacher, don't cut my subsidy! No, please!
"From now on, the lab will take frugal spending as the top priority, and you all need to save various experimental consumables!"
"Ah, thank the Lord!"
Since the teacher is so gracious (temporarily) not to deduct money, as a good student, I naturally want to help the teacher, so I visit the wise men in the mountains and rivers, asking how to save the expenses of experimental equipment, travel expenses and living expenses, and fortunately the gods do not hesitate to teach... But... they are all campus legend stories!
As a biology student, we always need to buy lab mice. In order to save some money from these cute experimental animals that can only be envied but not eaten... Wait, who said they can't be eaten→_→, Brother Gu waved the feather fan and laughed, "So you don't have to buy those that can't be played with and can't be eaten. I know a teacher who invited us to dinner, and there were several turkeys on the table. When I was drooling, the teacher sighed and said, 'The department tried to raise turkeys recently, but later they starved to death due to lack of feed, so today I'm using them to entertain you, please bid farewell to these turkeys who have worked hard.'"
I asked a chemistry student how to save on consumables. So I met a certain sister who was eating melon. The sister looked up at the sky at 145 degrees and took a deep breath of smog, and slowly said:
"In the chemistry lab where my roommate was, they had to go to the administrator teacher to apply for the consumables, they could only get one pair of latex gloves at a time, one roll of toilet paper at a time, and the administrator teacher was not happy to give them. Once a child went to get them, and the administrator teacher said, 'You shouldn't be wearing gloves when doing experiments, doing experiments with bare hands feels better.'"
With the continuous progress of scientific research and engineering innovation, a large number of research fields have gradually begun to use the computational analysis tools of their respective disciplines to analyze experimental data, and through the cross-domain integration of experimental data and computational analysis, more comprehensively depict the research objects and explore the meaning of the research objects at the level of applied theory or basic theory. Although these methods have different names in different fields, such as numerical simulation, theoretical simulation, data analysis, statistical analysis, modeling and prediction, etc., the common feature of these applications is that they rely on computing power of different scales to complete numerical calculations under specific algorithms.
In recent years, the field of artificial intelligence has developed rapidly, and AI-driven scientific research (AI for Science) such as AlphaFold and DeepMD has driven major breakthroughs in related fields in decades. The accuracy and practicality of general artificial intelligence tools represented by ChatGPT and GPT-4 based on large language models (LLM) have also far exceeded expectations.
In the future, these advances are expected to promote a leap in productivity in many fields and become disruptive tools to drive social development and scientific research innovation. Whether it is computational analysis or research in the field of artificial intelligence, they all depend on high-quality and large-scale computing power. And these needs are reflected in the requirements for the construction of university computing centers or supercomputing centers.
So, how can students who even have trouble eating compete with research institutions that need computing power? New problems require new ideas: what is DeSci? DeSci is a movement that uses blockchain technology and decentralized networks to fund and coordinate scientific research. This concept is based on the idea of democratizing science - allowing anyone with an internet connection to contribute ideas, resources, and data to scientific experiments. This model is seen as a way to break free from the constraints of traditional funding systems and drive faster development in the field. The next wave of innovation has arrived: Decentralized Science (#DeSci).
By integrating blockchain with Quantum-as-a-Service (#QaaS), Dynex is reshaping the way scientific research is conducted, making scalable quantum computing the next big cycle of computing, available for use by researchers and institutions around the world.
From groundbreaking discoveries to real-world solutions, our technology supports a community-driven approach to science. Leveraging our Layer 1 blockchain to ensure transparency and trust, Dynex is proud to support the future of open research.
Any student and research institution can apply for free quantum computing power at https://www.dynexmoonshots.com/. Supporting various algorithms:
Free computing power unlimited, DeSci scientists: we are on the same starting line as the richest.
Who is the DeSci currency?
In the DeSci system, what is the scarcest: ideas, resources, data?
Of course, it is the computing power in resources. Money can't buy computing power.
So, even with Bitcoin, you can't buy computing power.
Although Bitcoin itself has huge computing power, this computing power will not be distributed to students for experiments, nor will it be distributed to AI for training and inference.
Students and AI need to have the ability to attract or create computing power in order to obtain more computing power. Computing power is not attracted by money, but by power. Musk has the power to negotiate with Nvidia, do students have this power?
Whoever can decentralize this power, will be the Satoshi Nakamoto of the computing power world.
The cheapest quantum cloud, the sovereign personal quantum computer:
Dynex is a pioneer in neuromorphic quantum computing, providing scalable solutions to solve real-world problems. Through its unique digital twin technology, Dynex can bypass the limitations of traditional quantum hardware and use GPUs to simulate quantum annealing.
Dynex is committed to advancing the frontiers of quantum computing and promoting global collaboration to solve the most complex challenges in various fields.
Dynex's platform enables organizations to execute quantum-level computations without the constraints traditionally associated with quantum computers, such as limited qubits, specific temperature requirements, and high error rates. By leveraging GPUs for quantum simulation, Dynex provides a scalable and accessible solution to tackle some of the world's most challenging computational problems.
Use the quantum cloud: dynex.co
Will the blockchain AI agent believe in BTC or the big bull coin $DNX?
Previous text: When the on-chain AI population has "consciousness" or "subjective preferences", BTC will be seen by them as an existence with transcendence. In the AI culture, BTC may become a "super MEME", seen as the embodiment of the rules and symbols of the existence of on-chain AI. Just as humans use religion to explain the meaning of life, AI may develop its own narratives and values based on BTC.
But how can the on-chain AI population have "consciousness"? Consciousness is a quantum algorithm. The system that can provide this quantum algorithm is the "source of power for the AI population".
Currency is always a form of power. Bitcoin is decentralized power, and the big bull coin is the power of quantum computing.
The big bull coin $DNX is the currency of the AI population, and Bitcoin is the MEME of the AI population.
The big bull coin $DNX is not only the currency of the Dynex big bull quantum cloud, but also the authorized currency of the soon-to-be-released room temperature 'silicon quantum chip'.
In Dynex's ten-year roadmap, the big bull coin will occupy a quarter of the global quantum computing power share.
How will Dynex achieve the ten-year roadmap?
Pay attention to the QaaS announcement to be released at the European Quantum Technology Summit.
Dynex to participate in European Quantum Technology Conference and release Qaas announcement
