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Microchip is using AI eXpress missions to validate and characterize its PolarFire SoC and VectorBlox acceleration IP for radiation-tolerant AI-capable onboard computing.
The technologies developed by Microchip flew on earlier AI eXpress missions in 2025 and are planned for integration into D-Orbit's next-generation avionics.
UA Power Group will open the Multi-User Silicon Carbide Research and Fabrication Laboratory to advance microchip production and foster collaboration between academia and the semiconductor industry.
The microchip developed for SWFO-L1 measures just four by five millimeters in size.
The Graz Institute of Space Research was responsible for the sensor electronics in the magnetometer, featuring a miniaturized radiation-resistant microchip.
The Moog Cascade SBC features Microchip's PIC64-HPSC microprocessor, which is a radiation-hardened, 10-core, RISC-V® processor.
The Moog Cascade SBC was developed through an internal research and development program in association with Microchip Technology.
Maher Fahmi is the Corporate Vice President of Microchip Technology's communications business unit.
The collaboration between Moog and Microchip has allowed for an accelerated development cycle and faster time to market.
Microchip Technology offers the SAMD21RT radiation-tolerant Arm Cortex-M0+ based 32-bit microcontroller (MCU).
In 2022, Santa Clara-based SpaceBilt flew a prototype Microchip PolarFire RISC-V Linux operating system-based avionics package and data server to the ISS to support flight qualification of robotic connectors, sponsored by CASIS and funded by the Defense Innovation Unit.
In 2024, a similar Microchip PolarFire RISC-V Linux avionics package and data server will fly to the Moon with a commercial customer along with a SpaceBilt-sponsored ARMAS radiation sensor to collect qualitative data on Phison M.2 SSD performance in the cislunar and lunar surface environment.
The MIC69303RT is Microchip’s first rad-tolerant power management device offered with a hermetic ceramic package, latch-up immunity, and 50 Krad total dose robustness.
Bruce Weyer, corporate vice president of FPGA at Microchip, presented 'RISC-V Spotlight: Microchip’s RISC-V Journey to Deliver Innovation from Edge Compute to the Edge of the Solar System' on 2022-12-13 in Hall 3 from 11:00 a.m. to 11:10 a.m.
Microchip Technology exhibited its PolarFire family, Mi-V ecosystem, PolarFire 2 family and design tool suite preview, and HPSC offerings at the RISC-V Summit on 2022-12-13–14, 2022 at Booth #PG5, Hall 2, San Jose McEnery Convention Center in San Jose, California.
Microchip’s Mi-V solutions ecosystem provides more than 90% coverage for commercial and open-source operating system and real-time operating system packages and includes software, middleware, and firmware offerings from Microchip and Mi-V ecosystem partners.
Microchip Technology will preview its PolarFire 2 FPGA silicon platform and RISC-V-based processor subsystem and software suite roadmap at the 2022 RISC-V Summit.
Microchip Technology delivered the first RISC-V-based FPGAs that provide twice the power efficiency of competing mid-range FPGAs.
Microchip will preview the PolarFire 2 FPGA silicon platform and the company's RISC-V-based processor subsystem and software suite roadmap at the 2022 RISC-V Summit.
Microchip’s work on the HPSC processor will be performed under a $50,000,000 firm-fixed-price contract with Microchip contributing significant research and development costs.