Data Interface - Virtual Instrumentation, Device Networking.

Monday, January 19, 2015

ARM926 Stand-alone Computer – KwikByte

This ARM926-based stand-alone computer is an excellent choice for thin-client, low-cost, low-power consumption computing.

ARM926 Stand-alone Computer - KwikByte

The small footprint and low power requirements (supports Power-over-Ethernet, PoE) make the KBAT9261 ideally suited for facility applications and remote computing."

ARM926 Stand-alone Computer - KwikByte


Partial Tech Specs
  • Atmel AT91SAM9261 processor
  • 200+ MHz, ARM926EJ-S with Java acceleration and DSP instruction extensions
  • Independent 16KB instruction and 16KB data caches
  • 128 MB SDRAM
  • 8 MB boot/kernel Flash
  • 10/100 Ethernet
  • 2 x USB 2.0 full speed host ports
  • VGA display port
  • 2 x PS/2 for keyboard and mouse
  • Audio (headphone out, mic in, line out)
  • On-chip Real-time clock (RTC) with battery back-up
From - KwikByte

Wednesday, January 14, 2015

ACS - RF and Microwave EDA Tools

ACS delivers high performance state-of-the-art RF and microwave circuit design and simulation software for the Electronic Design Automation (EDA) marketplace.

ACS - RF and Microwave EDA Tools

"A wide range of applications are supported, from analog sub-circuit design to RF circuit design for complex wireless communications systems. ACS offers circuit design, synthesis, simulation and optimization programs for the advanced engineering professional and first time CAE (Computer Aided Engineering) user alike."

LINC2's Smith Chart view of the prototype amplifier simulation results.

ACS - RF and Microwave EDA Tools

The program LINC2 (LINear Circuit Analysis version 2), is a circuit simulation program written for the Microsoft Windows (TM) graphical operating environment. The program uses a nodal circuit file description that is very similar to several of the most popular RF/Microwave simulator programs currently used in the industry today.

Applied Computational Sciences -  ACS
Computer Aided Engineering Solutions for RF & microwave circuit design
061 Dragt Place, Escondido, CA 92029, USA.

Monday, January 05, 2015

MIPS Technologies - Semiconductor design IP

MIPS creates industry-standard processor architectures and embedded semiconductor cores that are the heart of many Electronic Gadgets and Equipment or Appliance.

The MIPS architecture was developed decades ago by Stanford University engineering Professor John Hennessy. It is an remarkable example of RISC processing.

"On 8 February 2013[5] MIPS Technologies, Inc. was acquired by Imagination Technologies"

"Imagination Technologies Group plc  a British-based semiconductor R&D company"

MIPS Technologies - Semiconductor design IP - Wayback Machine Snapshot

Processors, analog IP and software tools for the embedded market. Applications in digital television, broadband access, WiFi, cable set-top boxes, DVD recorders, HD DVDs, and VoIP.
  • RF and Wireless Connectivity IP Solutions
  • Connectivity IP Solutions
  • FPGAView Software
The MIPS SEAD -3

The MIPS SEAD -3 System engineering and development board is designed to provide a low-cost means to support various CPU cores allowing the user to evaluate the cores in an FPGA environment.

SEAD-3 also provides a user the ability to utilize the on board Xilinx FPGA for their own custom programming when a MIPS® FM-3 module is added to house the CPU core. When the FM-3 is added the user can then additionally stack on a MIPS® FPGA 5b board that can house up to two additional Xilinx XC5VLX330s providing extra design capacity.

MIPS Technologies, Inc.
955 East Arques Avenue, Sunnyvale, CA 94085, United States

Updated 4th June 2014