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The BA51 is an ultra-low-power RISC-V processor designed for embedded applications that demand minimal power consumption. Employing a compact design starting at 16k gates, it operates with a single-issue, two-stage pipeline that effectively minimizes energy use while maintaining performance. The processor also supports additional power management features like dynamic clock gating, making it a perfect choice for battery-operated devices and other power-sensitive environments.
The EMSA5-FS is a RISC-V based processor core designed with functional safety in mind, making it ideal for applications needing ISO 26262 ASIL-D certification. Equipped with an optional L0 instruction cache, this processor features a five-stage pipeline which offers high reliability through a design that supports fail-safe operations, such as Dual Modular Redundancy (DMR) and Error Correcting Code (ECC). Its robust architecture allows it to exceed frequencies of 1GHz, making it capable in high-performance environments.
The JPEG-DX-S core provides high-quality baseline JPEG decoding capabilities optimized for resources and energy efficiency. It's designed to support extended functionality with its capability to decode both 8-bit and 12-bit JPEG and Motion JPEG streams. This decoder stands out for its scalability, meeting the needs of UHD/8K video processing even when deployed on cost-effective FPGA platforms. Its streamlined architecture ensures high throughput and low-latency operation, making it suitable for a range of multimedia applications.
The BA53 offers an efficient blend of low-power operation and robust processing capabilities suitable for deeply embedded systems. With a five-stage pipeline architecture, it stands out for its flexibility in handling embedded applications that require sustained low power. Optional features such as L0 instruction and data caches are available, accommodating the efficiency needs of various applications while supporting run rates over 1GHz on advanced nodes.
The BA21 processor supports applications calling for low power and high computational efficiency. It is particularly suited for deeply embedded systems where minimizing power footprint is critical. With a two-stage pipeline, it utilizes advanced power management techniques like variable-length instruction encoding. This makes the BA21 an optimal solution for applications needing fast and responsive processing under constrained power conditions.
Designed for high-performance embedded computing, the BA22-AP processor offers support for off-chip memory and advanced processing capabilities. It's a robust choice for systems operating under Linux or Android environments, providing a powerful application processor that can handle complex applications with ease. Its architecture supports extensive code density and low-power consumption, making it both practical and economical for embedded use.
Featuring ultra-fast decoding capabilities, the JPEG-DX-F core is designed to handle both baseline and extended JPEG streams with high throughput. Suitable for UHD/8K video processing, even on cost-effective FPGA platforms, this decoder offers remarkable performance, scalability, and low energy consumption. The core’s design ensures robust handling of high-resolution imagery, making it a formidable solution for advanced multimedia applications.
The JPEG-E-S encoder provides robust compression for JPEG images, delivering impressive fidelity and speed. It is suitable for applications needing real-time encoding of baseline JPEG images, supported by a streamlined architecture that balances processing power with low energy consumption. Its ease of integration makes it an ideal fit for devices needing swift, efficient image processing.
The H264-D-BP is a dedicated video decoding core for AVC/H.264 Baseline Profile streams, offering excellent compatibility and low power consumption. Its compact design is tailored for use in consumer electronics, providing swift, efficient playback of H.264 streams. The decoder's capability to operate without external memory significantly reduces latency, making it ideal for applications with real-time video demands.
The BA20 processor from CAST leverages an energy-efficient PipelineZero architecture, offering a streamlined execution path for enhanced code density. This processor operates best in environments where power conservation is a priority, such as IoT devices and ultra-low-power applications. Despite its simplicity, the BA20 is equipped to handle complex tasks with its capability to execute operations with a compact silicon footprint, making it a compelling choice for cost-sensitive projects.
The BA22-CE is tailored for environments requiring efficient data handling and processing with its cache-enabled design. Its configuration maintains low power usage while delivering impressive processing capabilities, which is essential for applications demanding rapid data access and execution. The processor's versatility is further supported by scalable performance options, making it adaptable to varying system requirements.
The BA22-DE processor boasts a compact and configurable structure that excels in embedded computing applications. Its Harvard architecture, paired with the capacity for high operational frequencies, provides a versatile platform for developers. Enhanced with features such as optional caches and a rich instruction set, this processor supports a variety of embedded uses, ensuring reliable, low-power operation with high performance potential.
The CAN-CTRL controller core supports standard, extended, and CAN FD/XL specifications. It's renowned for its flexibility and integration efficiency in automotive and industrial networks. Designed with support for AUTOSAR and J1939, this core can be easily deployed across varied physical layers, ensuring reliable data transmission. Its small form factor and comprehensive interrupt and buffering features make it a suitable choice for modern vehicle network systems.
The JPEG-D-S core focuses on providing baseline JPEG decoding capabilities with minimized silicon area and power. It efficiently handles JPEG and Motion JPEG streams, offering a balanced solution for applications focusing on resource efficiency. This decoder is primarily used in devices where power savings and quick image processing are necessary, such as in mobile or portable platforms.
The H264-E-BPF encoder offers ultra-fast AVC/H.264 Baseline Profile encoding, supporting UHD/4K video processing. Its high-speed performance is ideal for high-end FPGAs and ASIC environments, making it suitable for broadcast and streaming applications. With its efficient design, it handles large video files without compromising on quality, providing a robust solution for demanding video encoding needs.
The H264-E-CFS encoder leverages Compressed Frame Store technology to reduce memory bandwidth demands, making it highly effective for applications lacking off-chip memory resources. This low-power core is optimized for light video encoding tasks, supporting effective data handling without the need for a DRAM footprint. Ideal for applications needing seamless video integration without the typical resource overhead.
The H264-E-BPS low-power encoder provides AVC/H.264 Baseline Profile encoding in a compact form. It's designed for environments where energy efficiency is critical, delivering the necessary performance without external memory. This core is a cost-effective choice for applications that need reliable video encoding under constrained power conditions.
This versatile SafeSPI-CTRL core is designed to support conventional and SafeSPI protocols, acting as a master, slave, or monitor. Its flexible design accommodates a range of functionalities, including an optional autonomous SafeSPI-to-AXI bridge. The core is ideal for applications demanding secure and reliable sensor and processor communications, such as those found in automotive and safety-critical systems.
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