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Designed for entry-level server-class applications, the SCR9 is a 64-bit RISC-V processor core that comes equipped with cutting-edge features, such as an out-of-order superscalar pipeline, making it apt for processing-intensive environments. It supports both single and double-precision floating-point operations adhering to IEEE standards, which ensure precise computation results. This processor core is tailored for high-performance computing needs, with a focus on AI and ML, as well as conventional data processing tasks. It integrates an advanced interrupt system featuring APLIC configurations, enabling responsive operations even under heavy workloads. SCR9 supports up to 16 cores in a multi-cluster arrangement, each utilizing coherent multi-level caches to maintain rapid data processing and management. The comprehensive development package for SCR9 includes ready-to-deploy toolchains and simulators that expedite software development, particularly within Linux environments. The core is well-suited for deployment in entry-level server markets and data-intensive applications, with robust support for virtualization and heterogeneous architectures.
The SCR7 is a 64-bit RISC-V application core crafted to meet high-performance demands of applications requiring powerful data processing. Featuring a sophisticated dual-issue pipeline with out-of-order execution, it enhances computational efficiency across varied tasks. The core is equipped with a robust floating-point unit and supports extensive RISC-V ISA extensions for advanced computing capabilities. SCR7's memory system includes L1 to L3 caches, with options for expansive up to 16MB L3 caching, ensuring data availability and integrity in demanding environments. Its multicore architecture supports up to eight cores, facilitating intensive computational tasks across industries such as AI and machine learning. Ideal for high-performance computing and big data applications, the SCR7 leverages its advanced interrupt systems and intelligent memory management for seamless operation. Comprehensive development resources, from simulators to SDKs, augment its integration across Linux-based systems, accelerating project development timelines.
SCR1 is an open-source and silicon-proven microcontroller core, tailored for deeply embedded applications. This 32-bit RISC-V core supports the standard ISA with optional extensions for multiplication, division, and compressed instructions. The design comprises a simple in-order 4-stage pipeline, providing efficient interrupt handling with an IPIC unit. It connects seamlessly with various interfaces, including AXI4, AHB-Lite, and JTAG, enhancing its adaptability across different systems. The SCR1 core boasts a Tightly-Coupled Memory (TCM) subsystem supporting up to 64KB. It features up to 16 interrupt lines and a range of performance monitoring tools making it ideal for IoT, control systems, and smart card applications. Pre-configured software development tools, including IDEs like Eclipse and Visual Studio Code plugins, complement the core, enabling developers to quickly deploy applications tailored to SCR1’s architecture. Additionally, SCR1 comes packaged with a rich suite of documentation and pre-configured FPGA-based SDK, ensuring a smooth transition from development to implementation. Its GPL-compliant open-source license ensures flexibility for commercial and educational use, making it a versatile choice for a wide range of projects.
The SCR6 is a high-performance microcontroller core optimized for demanding embedded applications requiring substantial computational power. Its out-of-order 12-stage pipeline, complemented by a superscalar architecture, enhances processing speeds, making it ideal for real-time systems. Supporting a wide range of RISC-V ISA extensions, including cryptography and bit manipulation, SCR6 caters to secure and efficient data operations. The SCR6's memory subsystem is robust, featuring dual-level caches augmented with an L3 network-on-chip option. This rich memory architecture, along with efficient interrupt processing via APLIC units, ensures smooth high-speed data throughput in intensive applications. The core supports heterogeneous multicore configurations, enhancing parallel task execution. Designed for industrial and IoT environments, SCR6 comes with extensive development support. Its toolkit includes simulations, FPGA-based SDKs, and integration resources, facilitated through industry-standard interfaces, ensuring rapid development cycles and application deployment.
The SCR4 core is a high-performance, area-efficient RISC-V processor with floating-point computation capabilities. Targeting mobile and industrial applications, it supports both single and double precision, adhering to IEEE 754-2008 standards. Its instruction set is complete with advanced extensions, including atomic and cryptography functions for secure and efficient operations. With a powerful 5-stage in-order pipeline and a dedicated FPU, the SCR4 can handle complex mathematical tasks swiftly. Its memory architecture features both L1 and L2 caches, alongside a TCM unit, enabling rapid data access and management essential in real-time environments. Incorporating a robust branch prediction unit and support for multicore setups, the SCR4 excels in environments demanding synchronized computing tasks across multiple processors. It’s supported by comprehensive development kits and detailed documentation to expedite the design and implementation processes across diverse platforms.
The SCR3 core by Syntacore is a silicon-proven microcontroller aimed at applications requiring both high performance and power efficiency. This 32/64-bit processor core supports a variety of RISC-V standard extensions, including atomic operations and bit manipulation, optimizing it for real-time applications needing reliable interrupt handling through its PLIC, ACLINT, and IPIC units. It features a 5-stage in-order pipeline paired with branch prediction and cache systems to enhance speed and execution efficiency. With considerable support for seamless memory operations, it includes both L1 and L2 caches and a TCM unit capable of housing up to 256KB of data, alongside an integrated Memory Protection Unit for executing multiple privilege modes. Ideal for industrial automation and IoT usage, the SCR3 core facilitates multicore operations with cache coherency for up to 4 simultaneous cores. Extensive development tools are provided, including simulators, IDE support, and a comprehensive FPGA-based SDK, allowing for immediate application development and deployment.
Syntacore's SCR5 is an efficient application-class processor core, crafted to deliver exceptional performance with Linux compatibility. It integrates a 9-stage in-order pipeline along with floating-point capabilities, making it suitable for diverse processing tasks. Adopting the latest RISC-V ISA extensions, SCR5 ensures high-speed computations and secure operations equipped with bit manipulation and cryptography features. The SCR5’s robust memory subsystem ensures data integrity and rapid access, featuring L1 and L2 caches, a TCM, and an MMU. High-performance multicore support extends up to four cores, promoting parallel processing capabilities necessary in industrial and IoT environments. Its interface support, including JTAG and AXI4, streamlines integration into varied infrastructures. For developers, the SCR5 core is accompanied by advanced toolkits designed to accelerate application deployment. These include pre-built OS options and native toolchains, all backed by thorough documentation to enhance the development lifecycle.
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