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The DAES processor is an ultra-secure cryptographic co-processor that efficiently implements the Rijndael encryption algorithm. This processor provides robust support for both 128 and 256-bit key lengths, while also facilitating a variety of block cipher modes such as ECB, CBC, and other standards. It incorporates an internal key expansion module to guarantee prompt and secure data encryption processes, positioning it as a vital asset for environments where data confidentiality is paramount. By integrating smoothly via APB, AHB, and AXI bus interfaces, it adapts seamlessly across differing systems requiring top-tier security.
The DQ80251 is a revolutionary microcontroller core, executing instructions with an ultra-high-performance quad-pipelined architecture. This core is optimized for both 16-bit and 32-bit embedded applications, offering unmatched speed and reliability. It supports classic 8051 instruction compatibility while pushing the limits with enhancements that accelerate processing power significantly. With a small gate size of 13,500 and the ability to handle 8MB code space, the DQ80251 core also climbs to a performance level of 75.08 DMIPS, making it a vital component in applications demanding quick data processing.
The DCAN XL presents an advanced CAN Bus controller capable of bridging traditional CAN FD with 100Mbit Ethernet. This innovative solution supports a wide range of data rates up to 20 Mbit/s, with specialized transceivers for bit rates both under and over 10Mbps. Designed in accordance with ISO 11898-1:2015 standards, it ensures compatibility across various automotive and industrial communication systems. By adopting cutting-edge serial communication technologies, the DCAN XL reliably enhances the network's data throughput and integrity, making it indispensable for sophisticated vehicular and machine control applications.
The DSHA2-256 co-processor is adept at boosting the SHA2-256 hash function's execution, following the FIPS PUB 180-4 compliance. Designed to handle rigorous data integrity and authentication tasks, it supports HMAC natively and accommodates SHA2 hashing in both 224 and 256-bit modes. This cryptographic part seamlessly interfaces with APB, AHB, and AXI buses, ensuring versatility across platforms. By enhancing data security protocols such as digital signatures, this co-processor plays a critical role in safeguarding modern digital communications.
The CAN FD Full Controller is engineered to enhance the capabilities of standard CAN protocols by supporting both CAN 2.0B and extended CAN FD frames. With compliance to ISO 11898-1:2015, this controller optimizes communication reliability and data rate handling, making it suitable for modern automotive and industrial applications. Its design allows it to overcome the limitations of traditional CAN systems, facilitating improved data throughput, which is essential in sophisticated, real-time communication networks.
The D68000 CPU Core offers a high-performance 32-bit microprocessor architecture, fully compatible with the classic Motorola 68000 series, revered in industrial applications. This core provides a cost-effective solution for robust data processing needs, supporting prevalent peripheral integrations. Designed to deliver efficient processing within an adaptable framework, it is particularly suited for a range of embedded applications from consumer electronics to industrial control systems. The core's compatibility with Linux expands its utility, making it a versatile choice for varied operational requirements.
The DSPI is an advanced SPI (Serial Peripheral Interface) controller that supports master and slave operations for seamless communication between devices. It excels in enabling quick and secure data transfers across various platforms. Designed to conform with numerous standard peripherals, the DSPI controller ensures compatibility regardless of product line or provider. It features a flexible architecture adaptable to multiple bus interfaces, making it a critical component for applications necessitating efficient data exchange.
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