ULSI（Ultra Large-Scale Integration）是指将非常庞大的电子元件集成在一个单一芯片上的集成电路技术。 ULSI芯片可以集成数十亿个晶体管，具有更高的电路密度和更高的性能，通常应用于高级计算机和通信系统等需要高性能的领域。

1、SSI是小规模集成电路的缩写。 全称：Small-scale integration。 2、MSI是中等规模集成电路的缩写。 全称：Middle-scale integration。 3、LSI是大规模集成电路的缩写。 全称：Large-scale integration。 4、VLSI是甚大规模集成电路的缩写。 全称：Very-Large-scale integration。 5、ULSI是超大规模集成电路的缩写。 全称：Ultra-Large-scale integration。 6、ADC是 模数转换器 的缩写。 全称：Analog-Digital Convertor。 7、DAC是 数模转换器 的缩写。 全称：Digital …

2024年6月11日 · ULSI was designed to provide the greatest possible computational power from the smallest form factor of microchip. The ULSI was achieved by embedding and integrating integrated circuits (IC). Integrated circuits were formed with transistors and logic gates. ULSI architecture enabled faster resolution of tasks and processes.

In Advanced ULSI interconnects – fundamentals and applications we bring a comprehensive description of copper-based interconnect technology for ultra-lar- scale integration (ULSI) technology for integrated circuit (IC) application.

to know more about ULSI (ultra large scale integration circuits) process problems and the handling and solution of real process issues. Prior knowledge of ULSI process and semiconductor devices is not essential. The book is divided into four parts: Part I covers the fundamentals. It begins with an introduction to the various microscopes and

During the last 30 years, integrated circuit (IC) technology has being rapidly developed. From the large scale integration (LSI) to the very large scale integration (VLSI) to the ultra large scale integration (ULSI), the scaling device feature size makes it possible to integrate more and more devices into one chip.

2003年9月22日 · Written by three renowned pioneers in their field, ULSI Semiconductor Technology Atlas uses examples and TEM (Transmission Electron Microscopy) micrographs to explain and illustrate ULSI process technologies and their associated problems.

0.25 微米世代進入0.18微米,隨著元件尺寸的縮小,金屬導線間的延遲(Interconnect Delay)效應主宰元件的整體表現。 為提升元件速度(Device Speed),降低元件RC 延遲(RC Delay)勢在必行,因此積體電路材料的「世代交替」在所難免。 在金屬導線材質方面,由鋁導線更代需要介電常數2.5 到3.0的材料;至於介電常數2.0 到2.5 的材料則可能在0.15微米到0.13 微米世代才會採用( 參見表一)。 但自1997 年秋,IBM宣佈開發完成銅導線技術,於是銅導線製程領先低介電常數材料應用於積體電路製 …

ULSI, or Ultra Large Scale Integration, represents the next step in the evolution of ICs. It refers to the integration of millions to tens of millions of transistors on a single chip. This technology takes the principles of VLSI to the next level, enabling even more complex and powerful circuits.

2023年6月14日 · Ultra-Large-Scale Integration (ULSI) microprocessors have revolutionized the field of microelectronics by enabling the integration of an incredibly large number of transistors onto a single chip. In this article, we will delve into the world of ULSI microprocessors, exploring their architecture, features, and applications.