FPGA co-processors optimize car infotainment, telematics
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2004-11-01 |
| As entertainment electronics becomes a primary source of differentiation among luxury vehicles, carmakers can rev up their designs with FPGA co-processing |
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| EDA platform benchmark: The desktop FPGA design flow
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2001-01-01 |
| This article evaluates the system requirements of your desktop against typical FPGA designs you would encounter |
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| Programming CPLD and FPGA code on the Intel PXA27x processor developer's kit
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2004-05-14 |
| This app note describes how to program the CPLD code and FPGA code on the Intel PXA27x processor developer's kit main board, the Intel PXA27x processor developer's kit daughter card, and the Intel PXA27x processor developer's kit PMIC (LDO) card (PMIC card |
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| Implementation of FPGA signal processing datapaths for software defined radios
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2001-08-09 |
| This conference technical paper describes the uses and applicability of FPGA-based signal processors especially in the telecommunication industry for software defined radios |
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| Power-Sensitive Design Techniques On FPGA Devices
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2001-07-03 |
| This paper focuses on the design techniques that need to be considered for power saving when considering FPGA devices |
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| Obtain best performance from your FPGA design
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2007-01-01 |
| This article will explore how FPGA designers can benefit from the latest FPGA building blocks in their quest for higher system-level performance |
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| FPGA I/O features help lower overall PCB costs
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2004-09-16 |
| Manage board complexity by exploiting advanced features of modern FPGA architectures |
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| Evolving PONs demand FPGA flexibility
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2008-06-02 |
| FPGA technology, low-cost optics, and a passive architecture have made significant contributions to passive optical networks and to the evolution of these networks. Prior to 2002, lower-performance FPGA generations served primarily as prototyping tools. Today's FPGAs are high performance, feature rich, and well suited to meet growing PON design requirements. In addition, FPGAs that offer lower design costs, flexibility, and scalability are the linchpin for turbo-charging the PON market |
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| FPGA tools need hardware assistance
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2001-05-01 |
| While techniques such as logic emulation provide a new tool for logic designers, many other FPGA-based systems serve as high-performance replacements for standard computers |
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| Accelerate FPGA design success with early defect discovery
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2006-02-16 |
| Having better upfront visibility into possible defects in HW/SW interaction can prevent the need for FPGA respins |
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| Configurable chips improve FPGA flexibility
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2007-10-16 |
| Embedded system designers are leveraging FPGA-based configurable processing solutions because they can be tailored to their specific application or product requirements |
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| Simulation boosts FPGA-based DSP systems
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2006-09-18 |
| The use of FPGAs as coprocessors provides considerable speed gains over high-end DSPs. The wide range of automated tools makes the development of FPGA-based DSP systems faster and easier than ever before |
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| Checking signals on high-density FPGA boards
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2007-09-03 |
| On a high-density FPGA-based board where multiple FPGAs are interconnected with hundreds of signals, checking and validating the interconnections between the FPGAs becomes a very challenging task |
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| Custom FPGA-based emulators accelerate IC design
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2001-11-16 |
| The regular, hierarchical structure that can be created in a custom FPGA means you can compile designs on a single workstation 5 to 20 times faster than traditional emulators |
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| Driving a 32-bit RISC in an FPGA
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2002-03-01 |
| This technical article describes an optimized 32-bit RISC processor capable of running up to at least 75MHz and occupies less than 40 percent of area in an FPGA |
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