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Designed for efficient processing, the SCR3 microcontroller core offers a versatile solution for embedded environments. It comes equipped with a 5-stage in-order pipeline and supports both 32-bit and 64-bit symmetric multiprocessing (SMP) configurations, facilitating advanced applications. The core integrates privilege modes and includes memory protection units (MPUs), along with L1 and L2 caches, ensuring data integrity and performance. Its efficient architecture is optimized for energy-conscious applications, making it ideal for industrial, automotive, and IoT applications.
The SCR6 microcontroller core offers high performance within a microcontroller framework, featuring a sophisticated 12-stage dual-issue out-of-order pipeline. It's aimed at applications needing high processing power but within the constraints of embedded systems. The core includes a high-performance floating-point unit (FPU), making it suitable for computation-heavy tasks while also supporting real-time operating systems. Its design ensures its applicability across fields like industrial automation, sensor fusion, and automotive systems, where power efficiency and performance are critical.
The SCR1 microcontroller core is designed for deeply embedded applications, providing an efficient and compact solution. It features a 4-stage in-order pipeline and supports 32-bit processing, making it suitable for applications requiring low power and space efficiency. The core's design is open-source, allowing for easy customization and adaptation to specific project requirements. Additionally, it integrates seamlessly with a variety of development environments and software tools, simplifying the development process and reducing deployment time.
The SCR7 application core is built for high-performance computing environments, featuring a 12-stage dual-issue out-of-order pipeline. It supports both cache coherency and symmetric multiprocessing, with the capability to handle up to 8 cores. This core is tailored for applications that require robust data processing capabilities, such as those found in data centers and enterprise networks. Its architecture supports extensive multitasking and advanced memory management, making it a powerful addition to any high-demand computing environment.
Targeted at high-end applications, the SCR9 processor core boasts a 12-stage dual-issue out-of-order pipeline, adding vector processing units (VPUs) to manage intensive computational tasks. It offers hypervisor support, making it suitable for diverse enterprise-grade applications. Configured for up to 16 cores, it exhibits excellent memory management and cache coherency required for state-of-the-art computing platforms such as HPC, AI, and machine learning environments. This core embodies efficiency and performance, catering to industries that leverage high-throughput data processing.
The SCR4 microcontroller core enhances embedded processing with robust features tailored for demanding applications. This core is designed with a 5-stage in-order pipeline, privilege modes, and advanced support for floating-point units (FPUs). Accompanied by MPUs and comprehensive cache infrastructures, including L1 and L2 caches, it ensures high efficiency and performance. Its ability to handle both 32-bit and 64-bit SMP setups makes it versatile for various industries such as industrial control, IoT, and embedded network devices.
Optimized for Linux-capable applications, the SCR5 application core serves high-performance needs with a sophisticated 9-stage in-order pipeline. Designed to handle complex data processing tasks, it integrates memory management units (MMUs) and supports both L1 and L2 caches with cache coherency features. This makes it a suitable option for areas requiring efficient data processing while maintaining energy efficiency, such as artificial intelligence, mobile devices, and high-performance computing.
Discover the latest release of Syntacore's Development Toolkit 2025.06, a robust RISC-V platform with new features enhancing IDEs, debugging, and simulation. Read more
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