White Paper
Documents
Document Name | Size | Published | Modified | |
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PolarFire SoC CPU Performance Benchmarking White Paper
PolarFire SoC CPU Performance Benchmarking White Paper
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253.95 kB | 12/01/2020 | 09/08/2021 | |
PolarFire SoC FPGA Application Waypointing White Paper | 146.56 kB | 10/04/2021 | 10/04/2021 | |
PolarFire SoC FPGA Interrupt Latency Data Transfer Throughput Measurements White Paper
PolarFire SoC FPGA Interrupt Latency Data Transfer Throughput Measurements White Paper
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222.46 kB | 07/02/2021 | 07/02/2021 | |
PolarFire SoC FPGA Opus Codec Benchmarking White Paper
PolarFire SoC FPGA Opus Codec Benchmarking White Paper
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205.65 kB | 04/23/2021 | 04/25/2021 | |
PolarFire SoC Linux Boot Time White Paper
PolarFire SoC Linux Boot Time White Paper
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196.49 kB | 04/08/2021 | 04/08/2021 | |
PolarFire™ Non-Volatile FPGA Family Delivers Ground-Breaking Value | 1.06 MB | 10/14/2017 | 04/14/2021 | |
Power Supply Transients on RTAX-S and RTSX-SU Devices White Paper | 82.1 kB | 02/14/2020 | 02/14/2020 | |
Power-Aware FPGA Design White Paper | 1.8 MB | 02/09/2009 | 02/09/2009 | |
ProASIC3/E Production FPGAs Features and Advantages White Paper | 271.94 kB | 01/20/2005 | 01/29/2007 | |
Protecting FPGAs from Power Analysis Recent advances in the size and performance of FPGAs, coupled with advantages in time-to-market, field-reconfigurability and lower up-front costs, make FPGAs ideally suited to a wide range of commercial and defense applications. In addition, FPGAs’ generality and reconfigurability provide important protections against the introduction of Trojan horses during semiconductor manufacturing process. As a result, FPGA applications increasingly involve highly-sensitive intellectual property and trade-secrets, as well as cryptographic keys and algorithms. |
151.81 kB | 05/08/2013 | 06/25/2013 | |
Reducing System Power White Paper | 33.3 kB | 08/27/2006 | 08/28/2006 | |
RTAX-S Testing and Reliability Update | 82.12 kB | 09/14/2006 | 09/13/2007 | |
Secure Architecture in Microsemi FPGAs and SoC FPGAs- an Overview | 404.16 kB | 12/02/2013 | 12/16/2013 | |
Secure Foundations White Paper White Paper
In a world where attacks on electronic systems can be conducted remotely, security is a vital component of system design. Even systems that do not have to store personal or commercially confidential data now have to be designed with security in mind to prevent their core intellectual property (IP) from being copied and reused illegally. In these examples, we can see the two elements of electronic system security: design security and data security. Increasingly, the two depend on each other. Without effective design security, there can be no data security. This white paper will introduce you to design and data security and will provide four options to support different design security use models.
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Unknown | 06/26/2013 | 06/27/2013 | |
Securing Your Embedded System Life Cycle | 392.91 kB | 12/09/2013 | 12/15/2013 | |
Securing Your Supply Chain Life Cycle | 364.5 kB | 12/02/2013 | 12/16/2013 | |
Security Scenarios Update | 302.09 kB | 03/10/2014 | 03/10/2014 | |
SecurityScenarios | 302.09 kB | 10/04/2004 | 06/21/2013 | |
Single-Event Upsets (SEUs) and Medical Devices White Paper | 1.28 MB | 06/07/2021 | 10/04/2021 | |
SmartFusion2 Low Power White Paper The SmartFusion®2 system-on-chip (SoC) FPGA is differentiated from other FPGAs by its low power capabilities that enable orders of magnitude lower power operation for low duty cycle applications. The device family includes important low power features: |
Unknown | 10/08/2012 | 06/26/2013 |