The Synphony HLS product generates optimized RTL for Virtex-6 FPGA implementation as well as testbench scripts to verify that the RTL implementation behaves exactly as the original model. Synphony HLS also generates fixedpoint Cmodels that can be used for system validation and functional verification. These features enable engineering teams to more rapidly create new designs or upgrade existing designs to Virtex-6 FPGAs.
"The Synphony HLS solution combined with the Virtex-6 and Spartan-6 families' Targeted Development Platforms has significantly reduced the effort required to get signal processing algorithms running on highperformance FPGA technology," said Tom Hill, senior manager DSP platforms at Xilinx. "The Synphony HLS product complements existing flows by providing a very high level of design abstraction with architecture exploration features and worldclass quality of results for design teams developing wireless infrastructure, broadcast, industrial, military and aerospace applications."
"The growing number of opportunities created by today's DSPrich FPGAs further widens the design productivity gap compared to implementing systems with highend DSPs," said Johannes Stahl, marketing director for systemlevel solutions at Synopsys. "Using Synphony HLS with Xilinx Virtex-6 FPGAs addresses this gap by allowing design teams to more rapidly create, optimize, explore and verify complex algorithms, such as orthogonal frequency division multiplexing (OFDM) and multipleinput multipleoutput (MIMO) modems that are now frequently being used in wireless and broadcasting designs."
Synphony HLS for Optimized Virtex-6 Implementation
The Synphony HLS product synthesizes architecturally optimized RTL from high level models built from the Synphony HLSoptimized IP libraries. The high level synthesis engine also optimizes for the target FPGA technology by offering an advanced timing mode which accurately characterizes operations on the Virtex-6 FPGA device using the Synopsys Synplify Pro® and Synplify® Premier logic synthesis tools. This feature enhances mapping to the Virtex-6 FPGA's onchip resources such as hardware multipliers, accumulators and memories, improves the overall optimization results and provides faster timing closure for Virtex-6 FPGAs.
Architecture Exploration and Verification Done Earlier
Using the Synphony HLS product, engineers can create and explore algorithm implementation architectures much earlier in their projects. Users can provide constraints that specify the architectural transformations and optimizations that the Synphony HLS engine will use to generate RTL, RTL testbench scripts and Cmodels that can be used in a variety of system simulation environments and virtual prototypes. This high level synthesis methodology allows designers to stay in their preferred algorithm modeling environment, eliminating the need to recode and reverify models and enabling early systemlevel validation and verification.
Synphony Reference Design for the Avnet Xilinx Virtex-6 FPGA DSP Kit
A Synphony HLS reference design is now available which demonstrates the Synphony HLS flow into the Avnet Xilinx Virtex-6 FPGA DSP kit. The application is a digital up converter (DUC) and a digital down converter (DDC) for cellular basestations. The kit includes the Synphony high level model, MATLAB scripts for verification, and a suite of high level synthesis results showing architectural exploration on Virtex-6 devices. It also includes implementations that map to the Virtex-6 ML605 FPGA board and run in realtime. The reference design will allow teams to be up and running with the Synphony HLS software and Virtex-6 FPGAs within hours.
Packaging and Availability
Synphony HLS and Cmodel generation is available now for FPGA and ASIC design flows. Synphony HLS is integrated with the MATLAB and Simulink from The MathWorks. The reference design is available upon request to Synphony HLS customers. For more information please visit the Synphony HLS webpage or contact your local Synopsys sales representative.