Altera StratixUpdated: Dec 30, 2013 |
Access and use Altera Stratix FPGA devices in your designs.
The Stratix family of FPGAs is based on a 1.5-V, 0.13-µm, all-layer copper SRAM process, with densities up to 79,040 logic elements (LEs) and up to 7.5 Mbits of RAM.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix GXUpdated: Dec 30, 2013 |
Access and use Altera Stratix GX FPGA devices in your designs.
The Stratix GX FPGA technology is built upon the Stratix architecture, and offers a 1.5-V logic array with unmatched performance, flexibility, and time-to-market capabilities. This scalable, high-performance architecture makes Stratix GX devices ideal for high-speed backplane interface, chip-to-chip, and communications protocol-bridging applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix IIUpdated: Dec 30, 2013 |
Access and use Altera Stratix II FPGA devices in your designs.
The Stratix II FPGA family is based on a 1.2-V, 90-nm, all-layer copper SRAM process and features a new logic structure that maximizes performance, and enables device densities approaching 180,000 equivalent logic elements (LEs).
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix II GXUpdated: Dec 30, 2013 |
Access and use Altera Stratix II GX FPGA devices in your designs.
The Stratix II GX FPGA technology is built on the Stratix II architecture and offers a 1.2-V logic array with unmatched performance, flexibility and time-to-market capabilities. This scalable, high-performance architecture makes Stratix II GX devices ideal for high-speed backplane interface, chip-to-chip and communications protocol-bridging applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix IIIUpdated: Dec 30, 2013 |
Access and use Altera Stratix III FPGA devices in your designs.
The Stratix III FPGA family is based on 65-nm and combines lower power with higher performance and density. This scalable, high-performance architecture makes Stratix III devices ideal for next-generation base stations, network infrastructure and advanced imaging equipment.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix IVUpdated: Dec 30, 2013 |
Access and use Altera Stratix IV FPGA devices in your designs.
The Stratix IV FPGA family delivers high density, high performance, and low power. Leveraging 40-nm benefits and proven transceiver and memory interface technology, the Stratix IV FPGA family provides an unprecedented level of system bandwidth with superior signal integrity.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altera Stratix VUpdated: Mar 09, 2014 |
Access and use Altera Stratix V FPGA devices in your designs.
Altera's 28-nm Stratix V FPGAs deliver the industry's highest bandwidth, highest level of system integration, and ultimate flexibility with reduced cost and the lowest total power for high-end applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Altium Developer |
The Altium DXP Developer extension is available to members of the Altium Developer Program and provides you with the tools and resources needed to create extensions for the DXP platform - the same platform that undergirds Altium Designer. With open access to the DXP API you can customize Altium Designer and create deeply integrated Extensions for deployment on your local PC or throughout your organization and beyond. Use the included documentation, code examples and purpose built wizards to connect Altium products to your business systems, automate processes to best fit your workflow, or develop advanced functionality for licensed distribution to thousands of Altium users worldwide. |
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ARM7-based LPC2000 SupportUpdated: Dec 30, 2013 |
Access and use NXP LCP2000 devices in your designs.
The LPC series of microcontrollers are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with embedded high speed flash memory. A 128-bit wide memory interface and a unique accelerator architecture enable 32-bit code execution at maximum clock rate.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Cortex-M3-based Stellaris SupportUpdated: Dec 30, 2013 |
Access and use Texas Instruments Stellaris microcontroller devices in your designs.
The Stellaris family of ARM Cortex-M3 based microcontrollers facilitate high-performance 32-bit computing in the world of cost-sensitive embedded microcontroller applications - particularly well-suited to industrial applications such as automation, motion control, security and remote monitoring. Utilizing ARM's Thumb-2 instruction set, which is compatible with the Thumb instruction set, memory requirements are greatly reduced - to a handful of kilobytes for most microcontroller-based applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |