In this video from KAUST, Steve Scott from at Cray explains where supercomputing is going and why there is a never-ending demand for faster and faster computers. Responsible for guiding Cray’s long term product roadmap in high-performance computing, storage and data analytics, Mr. Scott is chief architect of several generations of systems and interconnects at Cray.
Jeffrey Welser from IBM Research Almaden presented this talk at the Stanford HPC Conference. “Whether exploring new technical capabilities, collaborating on ethical practices or applying Watson technology to cancer research, financial decision-making, oil exploration or educational toys, IBM Research is shaping the future of AI.”
Today Silicon Valley startup Tachyum Inc. launched, announcing its mission to conquer the performance plateau in nanometer-class chips and the systems they power. “We have entered a post-Moore’s Law era where performance hit a plateau, cost reduction slowed dramatically, and process node shrinks and CPU release cycles are getting longer,” said Danilak, Tachyum CEO. “An innovative new approach, from first principles is the only realistic chance we have of achieving performance improvements to rival those that powered the tech industry of past decades, and the opportunity is a hundred times greater than any venture I’ve been involved in.”
In this podcast, the Radio Free HPC team looks at recent developments in the Volkswagen Dieselgate scandal. According to reports, auto parts supplier Bosch wrote the software for VW that enabled the company’s diesel vehicles to cheat on emissions tests. “We know because Bosch asked VW for indemnity back in 2006.”
In this video from the IEEE Rebooting Computing Workshop, Dr. William Vanderlinde, Chief Scientist at Intelligence Advanced Research Projects Activity (IARPA), explains how we have already entered the era at the end of Moore’s law, including the end of Dennard Scaling. Dr. Vanderlinde also reviews the National Strategic Computing Initiative (NSCI) and IARPA’s focus in relation to the NSCI’s objectives.
In this special guest feature, Tim Gillett from Scientific Computing World interviews Norbert Attig and Thomas Eickermann from the Jülich Supercomputing Centre about how JSC is tackling high performance computing challenges.
“D-Wave’s leap from 1000 qubits to 2000 qubits is a major technical achievement and an important advance for the emerging field of quantum computing,” said Earl Joseph, IDC program vice president for high performance computing. “D-Wave is the only company with a product designed to run quantum computing problems, and the new D-Wave 2000Q system should be even more interesting to researchers and application developers who want to explore this revolutionary new approach to computing.”
Matthias Troyer frin ETH Zurich presented this talk at a recent Microsoft Research event. “Given limitations to the scaling for simulating the full Coulomb Hamiltonian on quantum computers, a hybrid approach – deriving effective models from density functional theory codes and solving these effective models by quantum computers seem to be a promising way to proceed for calculating the electronic structure of correlated materials on a quantum computer.”
In this podcast, the Radio Free HPC team looks at D-Wave’s new open source software for quantum computing. The software is available on github along with a whitepaper written by Cray Research alums Mike Booth and Steve Reinhardt. “The new tool, qbsolv, enables developers to build higher-level tools and applications leveraging the quantum computing power of systems provided by D-Wave, without the need to understand the complex physics of quantum computers.”
“Just as a software ecosystem helped to create the immense computing industry that exists today, building a quantum computing industry will require software accessible to the developer community,” said Bo Ewald, president, D-Wave International Inc. “D-Wave is building a set of software tools that will allow developers to use their subject-matter expertise to build tools and applications that are relevant to their business or mission. By making our tools open source, we expand the community of people working to solve meaningful problems using quantum computers.”