Synopsys, Inc. announced its continued, close collaboration with TSMC to deliver
advanced EDA and IP solutions on TSMC's most advanced process and
3DFabric technologies to accelerate innovation for AI and multi-die
designs. The relentless computational demands in AI applications require
semiconductor technologies to keep pace. From an industry leading
AI-driven EDA suite, powered by
Synopsys.ai for
enhanced productivity and silicon results to complete solutions that
facilitate the migration to 2.5/3D multi-die architectures, Synopsys and
TSMC have worked closely for decades to pave the path for the future of
billion to trillion-transistor AI chip designs.
"TSMC is excited to collaborate with Synopsys to develop pioneering
EDA and IP solutions tailored for the rigorous compute demands of AI
designs on TSMC advanced process and 3DFabric technologies," said Dan
Kochpatcharin, head of the Ecosystem and Alliance Management Division at
TSMC. "The results of our latest collaboration across Synopsys'
AI-driven EDA suite and silicon-proven IP have helped our mutual
customers significantly enhance their productivity and deliver
remarkable performance, power, and area results for advanced AI chip
designs.
"For decades, Synopsys has closely collaborated with TSMC, providing
mission-critical EDA and IP solutions spanning all generations of TSMC's
most advanced nodes," said Sanjay Bali,
senior vice president of EDA product management at Synopsys. "This
partnership has been instrumental in helping our mutual customers
accelerate their innovation in the AI era and advance the future of
semiconductor designs. Together, we are pushing the boundaries of what's
possible, enabling groundbreaking advancements in performance, power
efficiency, and engineering productivity."
Synopsys AI-Driven EDA Design Flows Boost PPA and Engineering Productivity
Industry leaders have embraced Synopsys AI-driven EDA flows, powered by Synopsys.ai for their advanced chip designs on N2.
"Synopsys' certified Custom Compiler and PrimeSim solutions provide
the performance and productivity gains that enable our designers to meet
the silicon demands of high-performance analog design on the TSMC N2
process," said Ching San Wu, Corporate VP
at MediaTek. "Expanding our collaboration with Synopsys makes it
possible for us to leverage the full potential of their AI-driven flow
to accelerate our design migration and optimization efforts, improving
the process required for delivering our industry-leading SoCs to
multiple verticals."
In addition, Synopsys is collaborating with TSMC on the new backside
routing capabilities supporting TSMC's A16 process in the Synopsys
digital design flow to address power distribution and signal routing for
design performance efficiency and density optimization. Interoperable
process design kits (iPDKs) and Synopsys IC Validator physical
verification runsets are available for design teams to handle the
increasing complexity of physical verification rules and efficiently
transition designs to TSMC N2 technology.
To further accelerate chip design, Synopsys and TSMC have enabled
Synopsys EDA tools on the cloud through TSMC's Cloud Certification,
providing mutual customers with cloud-ready EDA tools that deliver
accurate quality of results and seamlessly integrate with TSMC's
advanced process technology. Synopsys' cloud-certified tools include
synthesis, place and route, static timing and power analysis,
transistor-level static timing analysis, custom implementation, circuit
simulation, EMIR analysis and design rule checking.
Advancing Multi-Die Innovation with Comprehensive EDA Solutions
Synopsys,
Ansys and TSMC have collaborated to address the complex multi-physics
challenge for multi-die designs with a comprehensive system analysis
flow by leveraging their prime solutions. The most recent flow based on
Synopsys 3DIC Compiler unified exploration-to-signoff platform, which
integrates 3DSO.ai, combined with Ansys RedHawk-SC power integrity
signoff platform for digital and 3D integrated circuits, enhances the
thermal and IR-aware timing analysis. Synopsys 3DIC Compiler is a
TSMC-certified platform supporting 3Dblox, TSMC's 3DFabric, which
includes TSMC-SoIC (System on Integrated Chips) and CoWoS packaging technologies.
"Our collaboration with Synopsys and TSMC exemplifies our collective
commitment to driving innovation and enabling the future of AI and
multi-die chip design," said John Lee,
vice president and general manager, semiconductor, electronics and
optics business at Ansys. "Together, we are tackling the multi-physics
challenges inherent in multi-die architectures, helping our mutual
customers achieve golden signoff accuracy for chip, package, and
system-level effects within the Synopsys design environment on the
latest TSMC technologies."
Reduce Risk with Silicon-Proven IP
Synopsys' comprehensive multi-die test solutions, available with the Synopsys UCIe and HBM3 IP, ensure multi-die package health during manufacturing test and in-field. In collaboration with TSMC, Synopsys has taped out a test chip utilizing TSMC's CoWoS
interposer technology with full support for test, monitor, debug, and
repair capabilities. The diagnosis, traceability, and mission mode
signal integrity monitoring allow in-design, in-ramp, in-production, and
in-field optimization for purposes such as predictive maintenance. The
Monitoring, Test, and Repair (MTR) IP for UCIe PHY provides testability at the die, die-to-die interface and multi-die package levels.
Synopsys has achieved multiple silicon successes for UCIe and HBM3 IP
solutions across N3E and N5 process technologies, accelerating IP
integration and minimizing risk. Latest developments of the Synopsys
UCIe IP, operating up to 40G, allows maximum bandwidth and energy
efficiency without the need for additional area while the HBM4 and 3DIO
IP solutions accelerate heterogeneous integration of 3D stacked-dies on
TSMC's advanced processes.