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RISC
a Reduced Instruction Set Computer.
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FireBird Camera Link 3U cPCI Serial Frame Grabber
AS-FBD-1XCLD-3CPCIS-2PE4
The FireBird Camera Link CompactPCI Serial card is a member of Active Silicon’s state-of-the-art FireBird frame grabber family. FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird Camera Link Frame Grabber (1xCLD-2PE4)
AS-FBD-1XCLD-2PE4
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird Camera Link Frame Grabber (1xCLD-2PE8)
AS-FBD-1XCLD-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird Camera Link Frame Grabber (2xCLD-2PE8)
AS-FBD-2XCLD-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird Camera Link Frame Grabber (2xCLM-2PE8)
AS-FBD-2XCLM-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird CoaXPress Frame Grabber (1xCXP6-2PE4L)
AS-FBD-1XCXP6-2PE4L
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird CoaXPress Frame Grabber (4xCXP12-3PE4)
AS-FBD-4XCXP12-3PE4
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees high speed and low latency image data transfers and zero CPU intervention.
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FireBird CoaXPress Frame Grabber (4xCXP12-3PE8)
AS-FBD-4XCXP12-3PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees high speed, low latency image data transfers and zero CPU intervention.
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FireBird CoaXPress Frame Grabber (Dual CXP-6)
AS-FBD-2XCXP6-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird CoaXPress Frame Grabber (Quad CXP-6)
AS-FBD-4XCXP6-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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FireBird CoaXPress Frame Grabber (Single CXP-6)
AS-FBD-1XCXP6-2PE8
FireBird is designed for ultimate performance using Active Silicon’s proprietary DMA Engine technology, “ActiveDMA”. This technical innovation applies RISC based processor techniques and guarantees zero CPU intervention, high-speed and low-latency image data transfers.
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Opella-XD-MIPS
Ashling’s Opella-XD-MIPS is a high-speed EJTAG debug probe for embedded development on MIPS™ configurable RISC cores. The Opella-XD-MIPS probe integrates with Ashling’s PathFinder-XD Eclipse based source debugger under Windows or Linux based hosts
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Operator Panels
Advantech offers operator panels including WebOP-2000T and WebOP-3000T series that come with RISC processors to satisfy the stringent standards required in the automation market, With support for over 450 PLC industrial communication protocols can fulfill the needs of different applications.
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SparkFun MicroMod Processor
STM32
The SparkFun MicroMod STM32 Processor Board is ready to rock your MicroMod world with its ARM® Cortex®-M4 32-bit RISC core! This little Processor Board provides you with an economical and easy to use development platform if you're needing more power with minimal working space. With the M.2 MicroMod connector, connecting your STM32 Processor is a breeze. Simply match up the key on your processor's beveled edge connector to the key on the M.2 connector and secure it with a screw (included with all Carrier Boards). The STM32 is one of the most powerful and economical microcontrollers available so to be able to add it to your MicroMod Carrier Board is a huge advantage for your project!
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SMARC Short Size Module with Freescale i.MX6 Solo, DualLite, Dual or Quad Core Processor
LEC-iMX6
The SMARC ("Smart Mobility ARChitecture") is a versatile small form factor computer Module definition targeting applications that require low power, low costs, and high performance. The Modules will typically use ARM SOCs similar or the same as those used in many familiar devices such as tablet computers and smart phones. Alternative low power SOCs and CPUs, such as tablet oriented X86 devices and other RISC CPUs may be used as well. The Module power envelope is typically under 6W.
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Computer-On-Module
SMARC
SMARC form factor is the only computer-on-module form factor that truly is capable of supporting both ARM and x86 designs. With 314-pins on a high speed MXM3 connector, SMARC can fully cover both typical x86 interfaces as well as typical ARM type low level signals. Using ARM SoCs opens the possibility to leverage the product ecosystem of familiar devices such as tablet computers and smart phones. Alternative low power SoCs and CPUs, such as tablet oriented x86 devices and other RISC CPUs may be used as well.
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Single Board Computers
Advantech RISC-based Single Board Computers (SBC) powered by Freescale and TI ARM, provides multi-integrated functions for easy implementation. Advantech offers a range of RISC solutions including RISC Modules, Single Board Computers (SBC) and Box Computers based on ARM cortex processor technologies. Together with RISC Design Support Services they streamline the whole design process and help customers rapidly develop their own innovations.
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Pico-ITX
RSB-3730
RSB-3730 is a RISC 2.5" single board computer (SBC) powered by aNXP i.MX8M Mini Cortex-A53 Quad high performance processor. It offers both rich display as HDMI/LVDS/DSI and rich IO as 1 GbE/3 serials/5 USB/8GPIOs. RSB-3730 also features Mini-PCIe for LTE and M.2 for WiFi/BT solution. It is an ideal solution for healthcare, security, IOT gateway and Vending machine application
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Carrier Boards
ROM-DB7500
ROM-DB7500 is an Evaluation Carrier Board designed for Advantech's RISC Qseven module. It is compatible with the ROM-7420 Qseven module and provides a thorough environmentfor RISC module board evaluation. It supports wide range temperatures and 12V power input through AC/DC power adapter.