Show pageDiscussionOld revisionsBacklinksBack to top This page is read only. You can view the source, but not change it. Ask your administrator if you think this is wrong. {{ ::risc_cpu_sun_ultrasparc.jpg?direct&200|}} ====== RISC / RISC-V ====== ====Reduced Instruction Set Computing 5==== >RISC-V is based on the Reduced Instruction Set Computing (RISC) design principle, which emphasizes simplicity and modularity in instruction set architecture. [[arduino_nano|Arduino Nano]] and other ATmega328(p)/4809 are a classic 'Enhanced' RISC architecture - Single core, low clock speed, but one instruction per cycle (extreme efficiency) ---- The RISC-V instruction set architecture (ISA) is an open-source, free-to-use, and royalty-free architecture for computer processors. Developed by the University of California, Berkeley's Computer Science Division. Development of RISC-V began in 2009 as a research project to create a low-power, high-performance processor that could be used in a wide range of applications. {{:risc_in_watch.jpg?nolink&200 |}} The initial goal was to create an architecture that could be easily modified and customized for specific use cases. Today, RISC-V is widely adopted across various industries, including embedded systems, data centers, and mobile devices. RISC-V chips power everything from insulin pumps and pacemakers to the specialized AI datacenter processing chips. **The core principles of RISC-V include:** * Load-store architecture: Data is loaded into registers before performing arithmetic operations. * Fixed-length instructions: Instructions have a fixed length, making them easier to decode and execute. * Instruction-level parallelism: Instructions can be executed in parallel, improving performance. ---- {{ :esp32_c3_cpu.jpg?nolink&325|}} **RISC-V's Relationship with [[esp32|the ESP32 Family]]** The [[esp32|ESP32 family]] of [[microcontroller|microcontrollers]], developed by [[espressif|Espressif Systems]], uses the [[risc|RISC-V]] architecture for its processor core. Specifically: * __[[esp32c2|ESP32-C2]]:__ single core 32-bit [[risc|RISC-V]] processor. * __[[esp32c3|ESP32-C3]]:__ single core 32-bit [[risc|RISC-V]] processor. * __[[esp32c5|ESP32-C5]]:__ dual core 32-bit [[risc|RISC-V]] split speed processor (1 performance core, 1 efficiency core). * __[[esp32c6|ESP32-C6]]:__ dual core 32-bit [[risc|RISC-V]] split speed processor (1 performance core, 1 efficiency core). * __[[esp32h2|ESP32-H2]]:__ single core 32 bit [[risc|RISC-V]] processor. * __[[esp32p4|ESP32-P4]]:__ three core 32 bit [[risc|RISC-V]] split speed processor (2 performance cores, 1 efficiency core). ---- //These systems DO NOT have a RISC-V CPU, but have XTENSA architecture instead:// *<del>[[esp32wroom1|ESP32 (original)]]</del> *<del>[[esp32s2|ESP32-S2]]</del> *<del>[[esp32s3|ESP32-S3]]</del> The use of RISC-V in the ESP32 family provides several benefits, including: * Low power consumption: RISC-V's design emphasizes low power usage, making it suitable for battery-powered devices. * Flexibility: RISC-V can be easily modified and customized to suit specific requirements. * Open-source nature: The open-source license allows developers to contribute to the architecture and create custom extensions. * Lower licensing costs: As RISC-V is royalty-free, manufacturers can save on licensing fees. * Increased customization: The open-source nature allows for easier modification and customization of the architecture. * Improved security: RISC-V's design principles emphasize secure execution, making it more resistant to attacks. risc.txt Last modified: 2026/05/24 11:18by mrmaxthemac