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发表于 2013-5-24 09:51:22
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HSPICE 2012.06 – Major Enhancements in June 2012 Release
HSPICE for Analog
Harmonic Balance analysis now supports multi-threading to deliver up to 4X speed up on 8 cores, enabling fast and accurate steady state analysis
Signal Integrity
New S-element implementation speeds up the transient analysis of long-delay systems such as backplane traces and HDMI cables. Simulation of long bit patterns (e.g., 60,000 bits) can be up to 60X faster than 2011.09 release with no compromise of HSPICE golden accuracy
Multi-technology Simulation
Multi-technology simulation (MTS) allows the simulation of different chips of different technologies in the same run without modifying the netlist, models or parameters of the individual chips. This technology will enable the simulation of 3D integrated circuits and silicon interposer packages.
New Models
FinFET BSIM-CMG 105.031, 105.04, 106.0
BSIM6
HiSIM-HV 2.0.0
Mextram 504.10
HSPICE 2011.09 – Major Enhancements in September 2011 Release - HSPICE for Analog
- HSPICE Precision Parallel technology extended beyond transient analysis to support transient noise, Monte Carlo, IBIS, and MOS reliability analysis (MOSRA)
- HPP technology now delivers 10X scaling on 16 cores
- Distributed Processing
- Distributed processing now supports DC Monte Carlo analysis
- Signal Integrity
- Parallel S-parameter evaluation improves HPP scaling on high-speed circuits
- W-element field solver now supports multi-threading, delivers 5X speed-up on 8 cores, enables faster analysis of complex traces at more frequency points
- Multiple edges support in StatEye analysis increases eye diagram accuracy for strongly nonlinear buffers
- New Model Support
- BSIM 4.7
- BSIMSOI 4.4
- HiCUM Level 0 1.3
- HiCUM Level 2 2.3
- HiSiM 2.5.1
- HiSIM_HV 1.2.1, 1.1.2 and 2.0.0
- FinFET BSIM-CMG 105
- Support of CMC TMI2 modeling API
=> 沒看到 synopsys 官網提 2013.03
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