Cypress University Alliance, 7월 9일 개최될 ReCoSoC 2013 컨퍼런스에서 새로운 PSoC® 4 아키텍처에 대한 워크샵 개최 | Cypress Semiconductor
Cypress University Alliance, 7월 9일 개최될 ReCoSoC 2013 컨퍼런스에서 새로운 PSoC® 4 아키텍처에 대한 워크샵 개최
최신 업데이트: 2013년 7월 5일
Truly Scalable, Infinitely Reconfigurable Architecture with Component-Based Design Methodology is Positioned to Challenge 8-, 16-, and 32-bit Standalone MCUs
SAN JOSE, Calif., 2013년 7월 5일 – Cypress Semiconductor Corp. (Nasdaq: CY) today announced the Cypress University Alliance will hold a PSoC® workshop at the Reconfigurable Communication-centric System-on-Chip (ReCoSoC) conference in Darmstadt, Germany on 2013년 7월 9일. The workshop will introduce the new PSoC 4 programmable system-on-chip architecture, which combines Cypress’s best-in-class PSoC analog and digital fabric and industry-leading CapSense® capacitive touch technology with ARM®’s power-efficient Cortex™-M0 core. More information and registration is available by at www.recosoc.org.
The truly scalable, cost-efficient architecture delivers PSoC’s trademark flexibility, analog performance and integration, along with access to dozens of free PSoC Components™—“virtual chips” represented by icons in Cypress’s PSoC Creator™ integrated design environment. The new PSoC 4 device class will challenge proprietary 8-bit and 16-bit microcontrollers (MCUs), along with other 32-bit devices. For more information, visit https://www.cypress.com/go/psoc4.
MCUs Can’t. PSoC Can.
PSoC devices employ a highly configurable system-on-chip architecture for embedded control design, offering a flash-based equivalent of a field-programmable ASIC without lead-time or NRE penalties. PSoC devices integrate configurable analog and digital circuits, controlled by an on-chip microcontroller, providing both enhanced design revision capability and component count savings. A single PSoC device can integrate as many as 100 peripheral functions saving customers design time, board space and power consumption while improving system quality and reducing system cost.
The flexible PSoC resources allow designers to future-proof their products by enabling firmware-based changes during design, validation, production, and even in the field. The unique PSoC flexibility shortens design cycle time and allows for late-breaking feature enhancements. All PSoC devices are also dynamically reconfigurable, enabling designers to morph internal resources on-the-fly, utilizing fewer components to perform a given task. More information about PSoC products is available at https://www.cypress.com/psoc and free online training is at https://www.cypress.com/psoctraining.
About the Cypress University Alliance
Cypress's University Alliance Program (https://www.cypress.com/cua) is a multifaceted program empowering electronics engineering and computer science students to develop the skill sets needed to perform in today's marketplace. The program mounts regional design competitions, and offers academic workshops. The university alliance website provides access to myriad free design resources, evaluation boards and online courses.
Cypress는 제품 출시 기간을 단축하고 탁월한 시스템 가치를 제공하는 프로그램 가능 고성능 혼합 신호 솔루션을 제공합니다. Cypress offerings include the flagship PSoC 1, PSoC 3, PSoC 4, and PSoC 5 programmable system-on-chip families. Cypress is the world leader in capacitive user interface solutions including CapSense® touch sensing, TrueTouch® touchscreens, and trackpad solutions for notebook PCs and peripherals. Cypress is the world leader in USB controllers, which enhance connectivity and performance in a wide range of consumer and industrial products. Cypress is also the world leader in SRAM and nonvolatile RAM memories. Cypress serves numerous major markets, including consumer, mobile handsets, computation, data communications, automotive, industrial, and military. Cypress trades on the NASDAQ Global Select Market under the ticker symbol CY. Visit Cypress online at https://www.cypress.com.
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Cypress, the Cypress logo, PSoC, CapSense, and TrueTouch are registered trademarks and PSoC Components and PSoC Creator are trademarks of Cypress Semiconductor Corp. All other trademarks are property of their owners.