The Certify software is the leading implementation and partitioning tool for ASIC designers who use FPGA-based prototypes to verify their designs. The Certify software provides a quick and easy method for conversion and partitioning of large ASIC designs onto multi-FPGA prototyping boards and includes powerful features that make it easy to adapt to existing device flows – speeding the validation process and helping to ease time-to-market challenges.
Prototyping with the Synopsys HAPS Series only? Learn how ProtoCompiler helps improve productivity and shorten time to first prototype.
- Key Features
- Supports high-capacity FPGA devices popular for FPGA-based prototyping
- Create custom board file descriptions with Verilog HDL syntax
- Automatic mapping of ASIC style RTL source code and DesignWare® IP to multiple FPGAs
- Allows automatic and/or manual partitioning
- Swarm Intelligence Partition Engine (SWIPE) finds more feasible partition solutions
- Impact analysis interface provides immediate FPGA resource consumption feedback during interactive partitioning
- Supports Synopsys Design Constraints for timing management
- Includes industry standard Synplify® Premier synthesis engine
- Includes Identify® RTL Debugger for simulator-like visibility into FPGA hardware
- Includes library of HAPS®-60/70 series motherboard and daughter board descriptions for immediate planning and implementation
- Offers High-Speed Time Domain Multiplexing (HSTDM) I/O sharing to increase FPGA interconnection bandwidth
Download Certify Datasheet
Figure 1: Flow based graphical interface guides the user
Request Product Evaluation
In order to prototype an ASIC design using FPGAs certain design elements must be converted to structures that are recognizable by FPGA implementation tools. These elements, such as ASIC gate-level components or gated-clock tree structures, can be very difficult and time-consuming to edit manually. The Certify software automatically recognizes and converts these ASIC-specific constructs into equivalent FPGA structures.
The Certify tool's automated mode partitions basic designs quickly with minimal user intervention by employing an intuitive, flow-driven graphical user interface (GUI). For more complex designs, this flow-driven GUI will guide the user through the partitioning process and provide utilities such as I/O pin multiplexing designed to reduce the number of I/O pins between FPGA partitions. Users can create functional partition solutions quickly and use the Certify tool's advanced features to optimize these solutions.
The Certify tool supports system timing constraints, defined in industry standard Synopsys Design Constraint (SDC) format - ensuring that the overall ASIC timing is matched by the multi-FPGA implementation. The Certify software can also provide a timing report outlining the approximate performance of the prototype prior to programming the hardware. With the Certify software, users are assured that the timing constraints for the ASIC are achieved by the equivalent multi-FPGA prototyping implementation. Additionally the tool's new High-speed Time Domain Multiplexing (HSTDM) technology offers a way to increase FPGA interconnect bandwidth on HAPS boards to significantly boost system performance.
FPGA-Based Prototyping Flow Integration
Board descriptions for the HAPS Series are built into the Certify tool to minimize set-up time. Quickly assemble and confirm the integrity of multi-motherboard and daughter board systems with Identify’s HAPS-Aware hardware query and checks for clock validity, HSTDM links, and UMRBus connections. Certify software assures optimum performance because it automatically takes advantage of HAPS signals to provide High-speed Time Domain Multiplexing (HSTDM) which ensures the fastest available connections between FPGAs. The Certify software uses the world-leading synthesis engine of the Synplify Premier FPGA implementation tool, to achieve the best possible mapping to the target FPGA. The Synplify Premier tool's integration with the Identify RTL debugging tool offers advanced debug capabilities to monitor signals in the critical areas of a design.
Figure 2: Certify is the key to multi-FPGA-based prototyping implementation