Foundation IP Development
Foundation IP Development
Foundation IP Development
Foundation IP Development focuses on creating essential, reusable building blocks—such as standard cells, IO libraries, memories, and analog primitives—that form the core of any semiconductor design. At Yoctozant, we develop high-quality, technology-optimized foundation IPs with strong PPA characteristics, accurate models, and full verification coverage. Our solutions ensure reliable integration, consistent performance across process variations, and faster design cycles for complex SoCs.
01
Standard Cell Development
We design comprehensive and optimized standard-cell libraries across multiple Vt options and drive strengths. Our cells are characterized for timing, power, and variability, ensuring seamless integration into synthesis flows and advanced P&R environments.
- Drive-strength coverage, power-optimized variants, high-density cells, low-leakage options, and custom architectures.
- Comprehensive sign-off including LVS/DRC, timing correlation, rail integrity, and formal verification.
Memory Compiler Development
From SRAM to ROM and register-file generators, we deliver high-density memory compilers tailored for performance, low leakage, or high-speed applications. Our compilers support multi-corner/multi-mode characterization and can be tuned for area, power, voltage scaling, and reliability targets.
- Single-port, dual-port, multi-port memories with flexible depths, widths, aspect ratios, and banking options.
- Optimized read/write speeds, low active power, ultra-low standby leakage, and power gating compatibility.
02
03
I/O Libraries (IOs)
We develop robust I/O interface libraries including GPIO, LVDS, High-Speed SerDes interface cells, and ESD-protected I/O structures. Designed for signal integrity and durability, our IO libraries support multiple voltage domains and industry-standard reliability guidelines.
- Programmable drive strengths, Schmitt trigger inputs, low leakage, and configurable slew-rate controls.
- LVDS, HSTL, SSTL, and other advanced signaling standards with precise impedance control and low jitter.
