2024年11月18-21日，第十屆國際第三代半導體論壇（IFWS2024）&第二十一屆中國國際半導體照明論壇（SSLCHINA2024）、先進半導體技術應用創(chuàng)新展（CASTAS）將在蘇州國際博覽中心G館舉辦。

Silvaco將攜多款產(chǎn)品亮相此次展會。值此，誠摯邀請第三代半導體產(chǎn)業(yè)同仁共聚論壇，蒞臨A30號展位參觀交流、洽談合作。

公司簡介

Silvaco（納斯達克股票代碼: SVCO）于1984年在美國硅谷成立，是全球領先的 TCAD、EDA 和 SIP 供應商，致力于通過軟件和創(chuàng)新推動半導體設計和人工智能發(fā)展。公司擁有從原子級到系統(tǒng)級的完整解決方案：從影響半導體器件的材料行為模擬，到晶體管級電路的設計和分析，再到為 SoC 設計提供 IP 核。公司產(chǎn)品和服務已應用于多個行業(yè)，包括顯示面板、功率器件、汽車、存儲器、高性能計算機、光子、物聯(lián)網(wǎng)和 5G/6G 通訊中的復雜 SoC 設計。Silvaco 總部位于美國加州圣克拉拉，在北美、歐洲和亞洲均設有分公司，中國區(qū)域總部位于上海浦東張江。

Silvaco is a provider of software solutions for semiconductor design, including TCAD, EDA software, and SIP solutions that enable semiconductor design and AI through software and innovation. The company’s innovative software and IP is used in the development of complex semiconductor manufacturing and SoC designs across a variety of market segments, including display, power devices, automotive, memory, high-performance computing, photonics, IoT, and 5G/6G mobile markets. We offer a wide range of solutions as well as support for engineers and researchers worldwide. Our expertise covers a broad range of semiconductor design, from simulating devices at the atomic level to designing and analyzing transistor-level circuits and providing semiconductor IP blocks and creation tools for advanced SoC designs. 

Silvaco Victory TCAD解決方案助力碳化硅、氮化鎵和硅基功率器件快速開發(fā)，為了滿足汽車、5G、工業(yè)、消費電子、高性能計算、航空航天和國防市場對功率器件的需求，基于碳化硅 （SiC）、氮化鎵 （GaN）和硅基材料的寬禁帶半導體正在快速推動功率器件的發(fā)展。

Wide-bandgap semiconductors based on Silicon Carbide (SiC), Gallium Nitride (GaN), and Silicon are driving a rapid transition in Power Devices to meet the requirements of Automotive, 5G, Industrial, Consumer, High Performance Computing, Aerospace and Defense markets.

Silvaco以TCAD為核心的功率器件開發(fā)和建模解決方案可以幫助客戶大幅縮短開發(fā)時間和成本，加快產(chǎn)品上市周期。Silvaco幫助工程師在功率器件開發(fā)過程中對器件工作條件、器件工藝技術或半導體技術進行探索和虛擬更改，定性和定量地理解器件。然后，再通過迭代仿真，工程師就可以優(yōu)化器件的性能和工作范圍，從而大大減少實現(xiàn)批量生產(chǎn)所需的時間和成本。 

Silvaco TCAD driven power device development and modeling solutions are key to dramatically reducing development time and costs, while accelerating time to market. This exploration builds qualitative and then quantitative understanding of the target power device under development. Iterative simulation then allows engineers to optimize device performance and operating parameters dramatically reducing the time and costs needed to reach volume production. 

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