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High Performance and Scalable Sensor Connectivity with MIPI I3C

This paper describes the MIPI I3C specification and its key benefits for a seamless transition from I2C to I3C.

Securing the Internet of Things Using Hardware Rooted Processor Security - An...

This paper can help you decide on the optimal mix of features and best tradeoffs to make for your specific IoT device that will result in a secure architecture that can be efficiently implemented.

Foundation IP for 7nm FinFETs: Design and Implementation

Learn about the challenges of IP design and implementation for 7nm FinFETs. Along with the performance and area benefits, designers will understand the significant technical challenges stemming ...

使用多通道体系结构优化LPDDR4的性能和功耗

LPDDR4是用于移动应用的最新双数据率同步DRAM,它是当今高端便携产品中常见的DRAM类型,应用 于如Samsung Galaxy S6智能手机,Apple iPhone 6S [1],以及数种最新发布的设备。除了移动应用之外, 预计LPDDR4会像其前任LPDDR3那样应用于平板电脑、轻薄笔记本电脑中,会采用“底层存储器”配置,亦 即,DRAM以物理方式焊接在主板上。 ...

Optimizing LPDDR4 Performance and Power with Multi-Channel Architectures

This white paper explains how LPDDR4 is different from all previous JEDEC DRAM specifications.

解决实施USB Type-C的三项关键挑战

USB是用于个人和消费电子产品的最为流行的有线连接标准。每年生产的具有USB功能的产品超过20亿台。在 过去的15年内,出现了使USB众多的性能升级,新型USB Type-C™引入了一种可扩展、强健和用户友好的微型 连接器,其势头仍将持续今后的15年。USB Type-C的成功获得首肯;USB Type-C标准已成为采用速度最快的 ...

Addressing Three Critical Challenges of USB Type-C Implementation

This white paper describes these key challenges and suggests solutions for designers of USB Type-C products and SoCs with native USB Type-C support.

Designing an Efficient DSP Solution: Choosing the Right Processor and ...

This white paper describes how to generate tight, efficient, and maintainable DSP code for a platform consisting of an IP core based on a specialized instruction-set architecture (ISA) coupled with...

Delivering High Quality Analog Video Signals with Optimized Video DACs

The paper addresses system-level techniques that together with an optimized video DAC will enable SoC designers to deliver power-efficient and feature-rich multimedia devices.

真正安全系统的真随机数发生器

大多数归类于“物联网”广阔范畴下的计算机、电子消费品和设备都需要达到令人惊讶程度的密码安全。即使是 诸如PlayStation或Xbox游戏机之类的玩具和游戏,也具备非常复杂的各种设计预置安全特性。然而令人遗憾的 是:当密码或登录凭证遭到泄露,这些特性往往受到阻挠或被破解,从而导致经济损失(如:失去音乐版税)、个人 数据泄露(如:医疗记录、家庭地址、或银行信息)或后续安全风险。 ...