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SIEMENS COLLABORATES WITH SURECORE AND SEMIWISE TO PIONEER QUANTUM COMPUTING READY CRYOGENIC SEMICONDUCTOR DESIGNS

Collaboration between Siemens, sureCore and Semiwise to develop cryogenic semiconductor designs capable of operating in extreme cold conditions required for quantum computing.

SIEMENS COLLABORATES WITH SURECORE AND SEMIWISE TO PIONEER QUANTUM COMPUTING READY CRYOGENIC SEMICONDUCTOR DESIGNS

Siemens Digital Industries Software announced its collaboration with sureCore and Semiwise to develop groundbreaking cryogenic CMOS circuits capable of operating at temperatures near absolute zero – a fundamental component of quantum computing systems. The joint effort holds the potential for dramatic advances in both performance and power efficiency for next-generation integrated circuits (IC) targeting quantum computing – considered the leading edge in high-performance computing (HPC) research and development.

The key to unlocking the potential of quantum computing for HPC and other fast-growing applications lies in the availability of control electronics capable of operating at cryogenic temperatures. Using advanced analog/mixed-signal IC design technology from Siemens, Semiwise has developed cryogenic CMOS circuit designs featuring cryogenic SPICE models as well as SPICE simulator technology that can perform accurate analyses at cryogenic temperatures.

Semiwise is providing this intellectual property (IP), developed using Siemens’ Analog FastSPICE (AFS), to sureCore for the development of sureCore’s revolutionary line of CryoIP, which aims to enable the design of CryoCMOS control chips seen as crucial for unlocking the commercial potential for quantum computing.

In the development of its CryoIP product line, sureCore also used Siemens’s Analog FastSPICE platform and Siemens’ Solido™ Design Environment software, both of which demonstrated reliable and accurate operation at cryogenic temperatures, empowering sureCore to construct analog circuits, standard cell libraries, and memory designs including SRAM, register files, and ROM, using Semiwise’s cryogenic transistor models. Further, Siemens’ Analog FastSPICE software showcased exceptional capabilities in handling foundry device models at cryogenic conditions, helping deliver efficient analog, mixed-signal, and digital circuit design and verification functionality without convergence issues. The result is a high level of accuracy and performance, setting the stage for potentially groundbreaking advancements in quantum computing.

Siemens' Analog FastSPICE platform, powered by technology from Siemens’ Analog FastSPICE eXTreme™ platform, offers cutting-edge circuit verification for nanometer analog, radio frequency (RF), mixed-signal, memory, and custom digital circuits. It holds foundry certifications across all major foundries and is qualified across various process nodes, from mature to the most advanced. Siemens' Analog FastSPICE platform offers a comprehensive use model, including small signal, transient, RF, noise, aging, and multi-sim verification capabilities, with drop-in compatibility with industry-standard SPICE-based flows. This all-encompassing solution boasts high performance, capacity, and flexible features.

Siemens' Solido Design Environment plays a pivotal role by providing a comprehensive cockpit for nominal and variation-aware analysis and encompasses SPICE-level circuit simulation setup, measurements, regressions, waveforms, and statistical results analysis. Powered by AI technology, Solido Design Environment assists users in identifying optimization paths to improve circuit power, performance, and area - facilitating production-accurate statistical yield analysis, reducing runtime compared to brute-force methods.

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