Traditional DSP: DSP Processors

99-07-01


½ÃÀÛÇÏ·Á¸é ÀÌ°÷À» ´©¸£½Ê½Ã¿À.


¸ñÂ÷

PPT ½½¶óÀ̵å

Traditional DSP: DSP Processors

Xilinx DSP High Performance Alternative - Parallel Processing

Xilinx DSP Solution

Existing Xilinx DSP Design Methodology

PPT ½½¶óÀ̵å

Performance

120 Million Samples per Second 512-Tap Decimating FIR

Price

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

Common DSP Functions

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

What to Ask

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

Best Device Utilization Distributed RAM well suited to DSP

PPT ½½¶óÀ̵å

PPT ½½¶óÀ̵å

CORE Generator Software

PPT ½½¶óÀ̵å

CORE Generator Methodology

LogiCORE - SDA Filter

PPT ½½¶óÀ̵å

Predictable Size & Performance

Performance Independent of core location

Performance Independent of Device Utilization

Best FPGA Performance Xilinx is more Predictable

Performance Independent of Device Size

Design Flow

Implementing the Mixer

Joining the Cores

Power Dissipation Advantage Often the Limiting Factor In DSP

Segmented Interconnect Yields Lower Power

Where to find opportunities

DSP Applications

PPT ½½¶óÀ̵å

 ÀÛ¼ºÇÑ »ç¶÷: Iwanczuk

Ȩ ÆäÀÌÁö: ../idec99_detail.htm

ÇÁ·¹Á¨Å×ÀÌ¼Ç ¿øº»À» ´Ù¿î·ÎµåÇÕ´Ï´Ù.