An informative and entertaining journey through how supercomputing is changing the world, one story at a time.
Quantum Computing
Gabriel Broner hosts Steve Reinhardt to discuss Quantum Computing. Listen to the conversation covering what are quantum computers, what problems can be solved orders of magnitude faster than with traditional computers, where are we today, and what the future holds.
Innovation in Antenna Design
Gabriel Broner hosts Mike Hollenbeck, founder and CTO at Optisys. Optisys is a startup that is changing the antenna industry. Using HPC in the cloud and 3D printing they are able to design customized antennas which are much smaller, lighter and higher performing than traditional antennas.
Accelerating HPC Workflows with AI
In this Big Compute Podcast episode, Gabriel Broner hosts Dave Turek, Vice President of HPC and Cognitive Systems at IBM, to discuss how AI enables the acceleration of HPC workflows. HPC has traditionally relied on simulation to represent the real world. Over the last several years AI has had significant growth due to innovation, growth in compute capacity, and new architectures that have enabled it.
Boom Supersonic – Pushing Boundaries in Aerospace Design
Gabriel Broner interviews Josh Krall, the CTO of Boom Supersonic. Boom is designing the next generation of supersonic airliners using HPC that is entirely in the cloud, replacing the decommissioned Concorde and re-opening trans-Atlantic flights at supersonic speeds.
HPC in the Cloud for Academia
Gabriel Broner hosts Marek Michalewicz, Director of ICM, the HPC center at the University of Warsaw to discuss Rethinking HPC in Academia. With the advent of HPC cloud platforms, we may give every user access to systems on premise, across multiple centers and in the cloud, to enable new research and accelerate time to research.
New Architectures in HPC
Host Gabriel Broner interviews Mike Woodacre, HPE Fellow, to discuss the shift from CPUs to an emerging diversity of architectures. Hear about the evolution of CPUs, the advent of GPUs with increasing data parallelism, memory-driven computing, and the potential benefits of a cloud environment with access to multiple architectures