Chip Design Verification Methodology
Chip Design Verification Methodology
Chip designers do their best to use the latest cocktail of verification techniques and tools, and EDA companies continually innovate new verification tools, design flows, and pre-verified silicon IP, in a valiant effort to achieve the elusive goal of achieving chip design verification perfection.
Verification Tool Comparison
The increasing size and complexity of SoC/ASIC designs have led to an exponential increase in the complexity of validation. In order to reduce time to market, it is important to choose different verification tools in different design stages to improve efficiency and accelerate the convergence of verification.
Heterogeneous Verification Platform
FPGA-based prototyping tools are scalable, cost-effective for almost any design, offer capable debug visibility, and are well suited to hardware-software co-verification. S2C has researched how the need for co-verification evolved with chip complexity, where FPGAs got their start in verification, and why ASIC design benefits from fpga verification methodology.
Design architecture planning, system performance analysis, virtualization application scenarios and IP modeling in the early stage
Support SystemVerilog, Verilog and VHDL RTL level simulation
Hardware simulation accelerates super-large design simulation speed and supports automatic compilation and full signal visibility
High-performance prototype verification for early software development and extensive system testing
Use transaction-level interfaces to reduce test program development time while ensuring the accuracy of system results
For more information about asic validationand fpga verification, please feel free to contact us!
Send product request
Other supplier products
 |
Prodigy Stratix 10 Series | Stratix 10 Series S2C's Stratix 10M Prodigy Logic Systems are suitable for Intel prototyping since they are based on the Intel Stratix fpga10 GX28... |
 |
Prodigy Logic Module | Prodigy Logic Module S2C's FPGA Prototyping system has been in the market since 2004 and has since been widely adopted by many leading SoC/ASIC de... |
 |
Prodigy™ Complete Prototyping Solutions | Rapid Prototyping Systems The Prodigy family by S2C is a comprehensive solution for IC designers focusing on FPGA and ASIC prototyping. The Prod... |
 |
Prodigy S7-19P Logic System – Prototyping with VU19P FPGA | Prodigy S7-19P Logic System The Prodigy S7-19P Logic Systems utilize Xilinx's highest capacity FPGA hardware, the Virtex UltraScale+ VU19P FPGA, (a... |
|
|
Chip Design Verification Methodology | Chip Design Verification Methodology Chip designers do their best to use the latest cocktail of verification techniques and tools, and EDA compani... |
Same products
 |
KYN28-12 Metal-clad indoor movable switchgear | Seller: Jiangsu Aokai Electric Co., Ltd | KYN28-12 indoor communication metal armoured open switchgear(hereinatter referred to as the switc... |
 |
MTUB43-90511B-12A20 Mini USB Female Connector | Seller: MTCONN ELECTRONICS CO.,LTD | This model is a Mini USB R/A T/H DIP female connectorthat complied with RoHS certificate. It adop... |
 |
Radar RD03 | Seller: Xi'an Interwiser Electronic Technology Co., Ltd | The RD03 low-altitude surveillance radaris a Ku-band phased array radar that adopts an all-solid-... |
 |
IWRFSOC8X8 Xilinx RFSoC 3U 4-Channel/ DC-4GHz | Seller: Xi'an Interwiser Electronic Technology Co., Ltd | InterWiser IWRFSOC8x8 3U algorithm evaluation modular systemdesigned for integration into deploye... |
 |
IW-RFSOC-48DR-SYN Mixed Signal Processing Card | Seller: Xi'an Interwiser Electronic Technology Co., Ltd | IW-RFSOC-48DR-SYN digital-analog mixed signal processing card, using Xilinx ZYNQ UltraScale + RFS... |
