- Cadence best-in-class simulation software program built-in with NVIDIA Blackwell-accelerated compute allows unmatched scale and pace
- Delivers as much as 80X larger efficiency and 20X decrease energy
- Optimized for a broad vary of workloads throughout EDA, system design and drug design
Cadence introduced a significant enlargement of its Cadence Millennium Enterprise Platform with the introduction of the brand new Millennium M2000 Supercomputer that includes NVIDIA Blackwell methods, which delivers AI-accelerated simulation at unprecedented pace and scale throughout engineering and drug design workloads.
The brand new supercomputer integrates Cadence’s industry-leading solvers with NVIDIA HGX B200 methods, NVIDIA RTX PRO 6000 Blackwell Server Version GPUs and NVIDIA CUDA-X libraries and solver software program. This highly effective mixture delivers dramatic reductions in simulation run instances and as much as 80X larger efficiency versus CPU-based methods for digital design automation, system design and evaluation, and drug discovery functions. The supercomputer supplies a tightly co-optimized hardware-software stack that allows breakthrough efficiency with as much as 20X decrease energy throughout a number of disciplines, accelerating the build-out of AI infrastructure, advancing bodily AI machine design and pushing the frontiers of drug design.
“The Millennium M2000 Supercomputer will drive the subsequent leap in AI-accelerated engineering by leveraging our massively scalable solvers, devoted NVIDIA Blackwell-accelerated computing and AI to assist designers proceed to push the bounds of what’s potential,” mentioned Anirudh Devgan, president and CEO of Cadence. “Objective-built for essentially the most superior AI fashions of right now and tomorrow, the Millennium M2000 Supercomputer delivers unprecedented designer productiveness to propel the subsequent technology of AI infrastructure, bodily AI methods and drug discovery.”
“From biology to chip design, the world’s most advanced engineering challenges require simulation at scales and speeds solely potential with accelerated computing,” mentioned Jensen Huang, founder and CEO of NVIDIA. “Constructed with NVIDIA Blackwell, CUDA-X and Cadence’s computational software program, the Millennium M2000 Supercomputer is a brand new class of infrastructure: an AI manufacturing facility for science to drive breakthroughs that can rework discovery throughout disciplines.”
The subsequent technology of infrastructure AI, bodily AI and sciences AI requires subtle computational functionality in knowledge facilities and edge units. Constructing upon the success of the Millennium M1 Supercomputer, which delivers breakthrough efficiency and power effectivity for high-fidelity computational fluid dynamics simulations, the Millennium M2000 Supercomputer harnesses Cadence’s broad array of EDA, SDA and molecular software program solvers to carry out huge simulations that have been beforehand inconceivable, reworking approaches to semiconductor and 3D-IC design, knowledge heart digital twins, drug discovery modeling and different engineering challenges throughout the hyperscale computing, automotive, knowledge heart, and aerospace and protection markets.
Advancing Semiconductors and 3D-IC Design
The {industry}’s first purpose-built emulator for AI design, the Millennium M2000 Supercomputer combines all of the multiphysics capabilities wanted to investigate and optimize 3D-IC and superior packaging designs, together with energy, thermal, stress/warpage and electromagnetics. This allows superior high quality in a fraction of the time, guaranteeing engineering groups can obtain better reliability and effectivity of their product growth cycles. For instance, conventional semiconductor chip-level energy integrity simulations are restricted to small home windows of time. Clients can now ship simulations in lower than a day with one Millennium M2000 Supercomputer that beforehand would have taken a whole bunch of CPUs virtually two weeks.
Accelerating Autonomous System Design
The AI infrastructure buildout requires a big funding in knowledge facilities and compute infrastructure. Doing this in an energy- and resource-efficient method is essential to delivering the subsequent technology of basis fashions from AI factories. Digital twins enhance operational efficiencies, scale back danger and decrease whole energy consumption. The Millennium M2000 Supercomputer accelerates the design and operation of those knowledge heart digital twins and the modeling course of required for the racks, boards and gear that energy them.
The Millennium M2000 Supercomputer additionally allows high-accuracy and high-capacity digital simulations of machines that can embody AI outdoors of knowledge facilities, reminiscent of autonomous transportation, drones and robotics. To design these methods successfully, the mixture of accelerated compute and computational software program unlocks improved designs in a shorter time by delivering digital wind tunnels that may exactly simulate real-world situations. Designers of digital and mechatronic methods can now make essential choices in lower than a day versus a number of days, saving each time and power in comparison with utilizing a CPU-based Prime 500 supercomputer cluster with a whole bunch of hundreds of processors.
Advancing Life Science Innovation
Cadence Molecular Sciences accelerates drug discovery by enabling pharmaceutical clients to carry out extra simulations in much less time with the Millennium M2000 Supercomputer. Cadence’s Orion Molecular Design Platform on Cadence OnCloud, accessible on the Millennium M2000 Supercomputer, equips researchers with unmatched computational energy to hurry up the invention of potential drug candidates and improve course of scalability.
