By leveraging GPUs & algorithmic innovation, we've tackled the largest MaxCut problems ever through SDP formulations—unlocking new frontiers in optimization & combinatorial problem-solving. 💻🔗 #QuantumComputing
https://t.co/AgkNvwEf4c
Introducing Tinker: a flexible API for fine-tuning language models. Write training loops in Python on your laptop; we'll run them on distributed GPUs. Private beta starts today. We can't wait to see what researchers and developers build with cutting-edge open models!
Introducing Tinker: a flexible API for fine-tuning language models.
Write training loops in Python on your laptop; we'll run them on distributed GPUs.
Private beta starts today. We can't wait to see what researchers and developers build with cutting-edge open models!
https://t.co/tJsgxgBuWo
NVIDIA just dropped a bomb: 4,000× boost in quantum simulation with GPU acceleration!
From error correction to circuit compilation, CUDA-powered innovation is smashing barriers & making scalable quantum computing a reality.
https://t.co/EUfFOpRPje
Proud to share our landmark partnership with @OpenAI, deploying millions of @nvidia GPUs to power the next generation of AI breakthroughs. Together, we’re building 10GW of AI datacenters to advance science, innovation, and human progress.
https://t.co/J46GtznG08
I still pinch myself, our analog platforms now deploy uncertainty‐quantification frameworks from the University of Washington to tame many‐body errors in real time, while digital circuits simulate tritium transitions with under 2% energy deviation.
https://t.co/DWF4eCqIMI
MIT engineers advance toward a fault-tolerant quantum computer;
Researchers achieved a type of coupling between artificial atoms and photons that could enable readout and processing of quantum information in a few nanoseconds.
https://t.co/J25QwEUCVT
Quantum mechanical simulation of the cyclotron motion of an electron confined under a strong, uniform magnetic field, made by solving the Schrödinger equation. As time passes, the wavepacket spatial distribution disperses until it finally reaches a stationary state with a RL.
#QS
Decoding thoughts into text without invasive procedures, are we witnessing the next leap in human-computer interaction! How accurate can it get? What are the ethical implications? Could this revolutionize communication for those with disabilities?
Nature has always been the greatest mathematician. The way penguins instinctively optimize space mirrors the efficiency of a hexagonal grid, just like atoms in a crystal or data in a neural network. Fascinating how math is everywhere!🐧
Huddling penguins seem to know what mathematicians learned long ago: The densest packing of shapes on a plane is a hexagonal grid. https://t.co/ydxCJQZoMY
@elonmusk Funny how the narrative flips when it’s convenient. Accountability should apply equally, no exceptions. Are people finally waking up to the double standards?
@elonmusk The past few years changed everything. Families were torn apart, businesses collapsed, freedoms were tested. The real question is, who will be held accountable? Or will history just repeat itself?
@unusual_whales Interesting move… Does this mean the SEC is backing off crypto, or just shifting tactics? Either way, crypto isn’t going anywhere. The real question is, who benefits from this change?
Time crystals, @Google’s quantum leap could redefine everything from secure networks to temporal physics. At @NVIDIA, we’re simulating these non-equilibrium wonders to push boundaries further.
https://t.co/BwWXeGrT87
Predicted in 2012 by Nobel laureate @FrankWilczek, time crystals are structures that repeat in time rather than space, defying equilibrium. In 2021, Google’s quantum computer created one. They could lead to unhackable quantum networks or redefine our understanding of time itself.