因应全球外嵌入式系统应用的快速成长，2005年晶心科技创立於新竹科学园区，致力於开发微处理器处理器为核心的系统晶片设计平台(Processor-based SoC Platforms)。晶心科技是一家国际化结合软硬体平台及系统整合能力且专注於系统晶片核心开发的公司，目前客户遍及台湾丶中国丶日韩丶欧美之IC设计公司。
晶心在自有CPU平台架构下经过几年研发及市场的耕耘，目前的AndesCore™ 家族包括N7丶N8丶S8丶E8丶N9丶N10丶D10和N13系列都已获客户采用且量产。此外，晶心科技亦提供适合MCU应用的开发平台AndeShape™ AE210P，可与AndesCore™ N7丶N8丶S8丶E8丶N9丶N10丶D10和N13系列产品进一步结合，非常适合客户开发物联网丶穿戴式装置所须的高效能且低功耗的MCU。
EpoStar Electronics Corporation was founded in December 2014 by a group of semiconductor professionals with accumulated more than 200 years of SSD experiences. In EpoStar, we focus on developing industry-leading silicon IPs, FTL algorithms, and controller architecture for SSDs. Our mission is to enable cost effective movement of “Big Data” to NVM by delivering new generation of SSD based storage solutions for Data Center, Cloud, and Client applications.
法商颖设科技( http://www.insidesecure.com )是一家总部位于法国专注于安全解决方案的上市公司. 其产品线涵盖两大范畴: 其一为行动App安全保护工具及DRM内容保护与HCE移动支付软件套件,其二为嵌入式安全解决方案,本公司不仅提供不同通信协议层的通信安全解决方案,在硬件HWIP方面,针对广大物联网相关应用过程中之身分验证,与数据加密提供适合该应用场景的弹性方案,应用范围包含SSD控制器嵌入式安全IP,影像接口如HDMI,DisplayPort上所需之HDCP2.2, DTCP-IP,有针对便携式产品中Flash/SD进行数据加密之DAR, 针对安全通讯之 MacSec, IPSec, SSL/DTLS, 其中之加密模块(Crypto Module)与算法(Cipher)更是经过FIPS认证,数据中心超高速网通芯片封包安全引擎相关解决方案更居业界领导地位.同时于本地亦有原厂技术支持提供无缝
Security in Everywhere
Secure-IC is a spin-off from Télécom ParisTech University, one of the most advanced institutes in embedded security research. Sylvain Guilley, Jean-Luc Danger and Laurent Sauvage, Paris Tech researchers and inventors of more than 50 families of patents on embedded security have founded Secure-IC jointly with Hassan Triqui and Philippe Nguyen in January 2010.
Secure-IC is known as a thought leader in physical and cyber security. In order to offer its clients best-of- breed technologies and above state-of- the-art protections, Secure-IC is highly committed in its research community to analyze upcoming threats, explore innovative solutions, and support the work of standardization bodies. Our research activities benefit our partners through trainings or closer collaborations on specific topics.
Going forward, there will be more and more interconnected devices or objects in various market verticals, this is what we call Internet of Things or Internet of Everything. All those objects being interconnected to the cloud, each and every object could be a threat for the whole network. Therefore the security of the objects or the devices is key. Even more, security will become one of the most important assets of the digital world.
Our mission is to partner with our clients throughout and beyond the IC design process to provide best-of- breed security expertise, solutions, and technologies, for embedded systems and connected objects. More than just words, our values define how we conduct ourselves and our business on a day-to- day basis. Our values are vital to the success of Secure-IC and the trust of our clients.
Digital Anti-Tamper Technology
With the upcoming Internet of Things, IC design is expected to meet a massive deployment, with more than 20 billion connected devices flooding the world over the next 5 years, in applications such as Smart Cards, Automotive, Smartphones, Set-Top Boxes. Such devices will be used daily and will contain personal and professional information, which means sensitive information that has to be protected. Indeed, every single connected device can be a direct link to the customer’s banking or personal information.
Fault Injection Attacks (FIA) are the most threatening existing attacks against hardware designs nowadays. This attack directly distorts the IC, via an electromagnetic probe, or a heat gun… and is hard to circumvent. The purpose is to use such perturbations in order to fault the computation and observe the generated error on an oscilloscope. This error is afterwards compared to the normal behavior of the system. This procedure allows to recover the secret key. Therefore, it is of paramount importance to implement efficient countermeasures to circumvent these attacks. One state-of- the-art countermeasure is digital detection. This process has the benefit over analog sensors of being free from any input or calibration requirements. An entirely digital IP Core can inform the user in real time of an ongoing fault injection. In that regard, an anti- tamper key technology has been implemented on a FPGA board. This FPGA board is casually running, until a FIA is performed via heat injection. The attack is precisely detected in real-time and an alarm is raised. This alarm is transmitted to a security policy module (for instance, Secure-IC's Secure Monitor).
With a customizable sensitivity, small gate-count and fully digital key technology, Secure-IC enables its customer to detect any fault injection from clock glitches, power underfeeding or laser attacks.
SecureRF® Corporation develops and licenses quantum-resistant, public-key security tools for low-resource processors powering the Internet of Things (IoT). The company’s authentication and data protection solutions are highly efficient when compared to techniques like ECC and RSA. SecureRF delivers ultra-low-energy, fast, and small footprint solutions ideally suited for 32-bit, 16-bit, and even 8-bit devices.
SecureRF security solutions are used to address wireless sensors, NFC, Bluetooth, and RFID tags as well as embedded platforms including FPGAs, microcontrollers, and ASICs. Software Development Kits, RTL, and tools are available for a wide range of environments. The company also offers Veridify®, a comprehensive, cloud-based solution providing real-time connectivity via smart apps that make products and supply chains smart, secure, and visible.
The SecureRF-Andes partnership enables companies to use AndesCore processors in combination with SecureRF’s asymmetric cryptosystems. SecureRF’s solutions are particularly well-suited for the 32-bit AndesCore S8 processor.
Quantum-Resistant Authentication & Data Protection for Constrained IoT Devices
SecureRF will demonstrate its authentication and data protection solutions for low-resource IoT devices on the 32-bit AndesCore™ S8 processor.
The demo will showcase SecureRF’s quantum-resistant Ironwood™ Key Agreement Protocol (KAP) and Walnut Digital Signature Algorithm (WalnutDSA™). These asymmetric (public-key) cryptographic protocols, based on Group Theoretic Cryptography, are at least 60 times faster than ECC, and consume up to 140 times less energy. The demo will compare the runtime performance of SecureRF’s solutions with ECC’s.
Winbond is a specialty memory IC company engaged in design, manufacturing and sales services. From product design, research and development, and wafer fabrication to the marketing of brand name products, Winbond endeavors to provide its global clientele top quality memory solutions. Winbond's major product lines include Code Storage Flash Memory, Specialty DRAM, Mobile DRAM, and TrustME Secure Flash Memory.
Winbond introduces the pioneering TrustME Secure Flash Memory that has been Common Criteria EAL 5+ certified for applications in enhanced system security.