White Paper
Documents
Document Name | Size | Published | Modified | |
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WP0214: Energy Efficient Digital Frontend Designs With PolarFire FPGAs For Small Cells | 1.47 MB | 02/01/2018 | 02/01/2018 | |
WP0205: Microcontroller Based FPGAs Hit the Mark | 732.92 kB | 01/14/2016 | 02/08/2016 | |
WP0201: Low Power, Secure, and Deterministic Multi-Axis 100+ kRPM Motor Control Solutions White Paper | 1.45 MB | 07/14/2015 | 07/16/2015 | |
WP0199: Introduction to ADAS and Secure Connected Car | 716.86 kB | 06/09/2015 | 06/09/2015 | |
WP0194: Confidently Deploy Microsemi RTG4 FPGAs in Space-based Systems ‰ÛÒ A Reliability Overview | 365.71 kB | 05/27/2015 | 05/27/2015 | |
WP0191: Mitigation of Radiation Effects in RTG4 Radiation-Tolerant FPGAs White Paper | 787.08 kB | 04/07/2015 | 05/28/2015 | |
WP0189: Designing with Microsemi SoC FPGAs for Industrial and Motor Control Solutions White Paper | 1.02 MB | 03/03/2015 | 07/24/2015 | |
WP0089: Incredible Shrinking Medical Devices White Paper | 595.68 kB | 10/21/2008 | 02/04/2016 | |
Using the IGLOO2 High-Performance Memory Subsystem in Innovative Bridging Applications White Paper
Microsemi IGLOO2 devices include an innovative High-Performance Memory Subsystem (HSMS) that provides dedicated functions (like DDR Controllers, embedded non-volatile and SRAM memory, DMA and an efficient AHB Matrix) to speed common system operations typical of innovative bridging applications. When the advanced features of the HSMS are combined with a wealth of FPGA fabric (including advanced DSP and embedded memory blocks), and up to 16 lanes of multi-protocol SerDes, impressive external bandwidth can be matched with extensive internal data-processing and data-management capabilities. This allows even the most bandwidth hungry bridging applications to run continually at full speed while keeping power, cost and board space within even the stingiest of budgets. This white paper will demonstrate the needs and requirements of systems with advanced bridging functions to directly illustrate the advantages of IGLOO2 devices in these types of applications.
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Unknown | 06/26/2013 | 06/26/2013 | |
Understanding Actel Antifuse Device Security | 128.26 kB | 01/05/2004 | 06/21/2013 | |
Truth in Randomness | 1.61 MB | 12/04/2013 | 02/11/2014 | |
The New Power-Smart Power Paradigm | 210.99 kB | 07/02/2007 | 06/21/2013 | |
The Many Flavors of Low-Power, Low-Cost FPGAs White Paper | 517.16 kB | 04/19/2008 | 04/21/2008 | |
System Management Using a Mixed-Signal FPGA White Paper | 239.53 kB | 12/18/2006 | 12/18/2006 | |
SXbkgrndr | 222.54 kB | 05/08/2013 | 05/08/2013 | |
Specify and Program Security Settings and Keys with SmartFusion2 and IGLOO2 FPGAs | 1.28 MB | 12/15/2013 | 12/16/2013 | |
SmartFusion2 White PaperåÊ This white paper has provided a detailed look at the key aspects of the SmartFusion2 family and has demonstrated the dramatic advantages SmartFusion2 FPGAs make available to designers of advanced |
Unknown | 06/26/2013 | 06/26/2013 | |
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 | |
Single-Event Upsets (SEUs) and Medical Devices White Paper | 1.28 MB | 06/07/2021 | 10/04/2021 | |
SecurityScenarios | 302.09 kB | 10/04/2004 | 06/21/2013 |