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TSMC 65nm Standard Cell Library Download: How to Access and Use It

TSMC 65nm Standard Cell Library Download: How to Access and Use It

If you are looking for a reliable and advanced semiconductor process technology for your integrated circuit (IC) design, you may want to consider TSMC's 65nm technology. TSMC is the world's largest dedicated IC foundry, offering a comprehensive portfolio of logic, mixed-signal, memory, and specialty technologies. TSMC's 65nm technology is the company's third-generation process employing both copper interconnects and low-k dielectrics. It supports a standard cell gate density twice that of TSMC's 90nm process, offering better integration and improved chip performance.

But how can you access and use TSMC's 65nm standard cell library for your IC design? In this article, we will explain what a standard cell library is, why it is important, and how you can download TSMC's 65nm standard cell library data sheet from various sources.

tsmc 65nm standard cell library download

What is a Standard Cell Library?

A standard cell library is a collection of pre-designed and pre-characterized logic cells that can be used to implement digital functions in an IC. A standard cell library typically includes basic logic gates, such as AND, OR, NOT, NAND, NOR, XOR, etc., as well as more complex functions, such as flip-flops, latches, multiplexers, adders, etc. Each cell in a standard cell library has a fixed layout and a set of electrical parameters, such as area, power consumption, delay, noise margin, etc.

A standard cell library is essential for IC design because it enables designers to use a modular approach to create complex digital circuits. By using standard cells from a library, designers can save time and effort in designing and verifying each cell from scratch. Moreover, using standard cells from a library ensures compatibility and consistency among different cells and modules in an IC.

Why TSMC's 65nm Standard Cell Library?

TSMC's 65nm technology is one of the most widely used and mature semiconductor processes in the industry. It offers a broad range of applications, such as mobile devices, computers, automotive electronics, IoT, and smart wearables. TSMC's 65nm technology also provides a rich portfolio of process variants to meet different customer needs. These include:

  • General purpose (GP): for high-performance and low-power applications

  • Low power (LP): for ultra-low power applications with innovative power management technology

  • Mixed signal/radio frequency (MS/RF): for analog and RF circuits with high-quality passive components

  • Embedded DRAM memory (eDRAM): for high-density and high-speed memory integration

  • Multi-time programmable non-volatile memory (MNVM): for flexible and secure data storage

  • Embedded flash memory (eFLASH): for fast and reliable code execution

  • High voltage (HV): for power management and display driver ICs

  • Power management (BCD): for high-efficiency and high-reliability power conversion

  • MEMS: for micro-electro-mechanical systems with high sensitivity and accuracy

TSMC's 65nm standard cell library is designed to support all these process variants with optimal performance, power, area, and yield trade-offs. It also offers various features to enhance design flexibility and robustness, such as:

  • Dual Vt: for fine-grained control of speed and leakage

  • Multichannel length: for improved drive strength and noise immunity

  • Multivoltage: for dynamic voltage scaling and power gating

  • Multipower: for mixed-signal interface and level shifting

  • Multirail: for reduced IR drop and electromigration

  • Low-power flip-flop: for clock gating and retention mode

  • Scan flip-flop: for testability and debug

  • Built-in self-test (BIST): for memory testing and repair

  • Built-in self-repair (BISR): for memory redundancy and replacement

How to Download TSMC's 65nm 0efd9a6b88


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