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1 | BSP | Architecture | BSP Family | CPU Model | RTEMS Wiki Link (just URL) | In BSP Master List on Wiki? | Manufacturer | Website (URL of Board) | Year Released | One Line Description | One Short Paragraph Description | ||||||||||
2 | kit637_v6 | arm | csb337 | at91rm9200 | Wiki Page | Yes | Cogent Computer Systems, Inc. | Link | 2007 | Development kit featuring a CSB637 Single Board Computer and an LCD screen. | The kit features a CSB637 Single Board Computer, CSB937 Main Board for the Target, an Optrex LCD screen, and an LCD inverter. | ||||||||||
3 | csb637 | arm | csb337 | at91rm9200 | Wiki Page | Yes | Cogent Computer Systems, Inc. | Link | 2007 | A newer version of the CSB337 featuring improved hardware. | Designed for low power, portable use, the CSB337 features a compromise between functionality, form factor, and power usage. The board is easy to integrate with surface mount connections and features an AT91RM9200 processor. | ||||||||||
4 | csb337 | arm | csb337 | at91rm9200 | Wiki Page | Yes | Cogent Computer Systems, Inc. | Link | 2004 | A highly integrated AT91RM9200 Single Board Computer. | With an AT91RM9200 at its core, the CSB337 provides excellent performance with low power consumption. The board also features plenty of connectivity ports that makes it suitable for industrial automation, telematics, medical applications, and more. | ||||||||||
5 | gumstix | arm | gumstix | pxa255 | Wiki Page | Yes | Gumstix | Link | 2007 | Microcontrollers featuring a small, slim form factor and open source hardware. | The Gumstix Verdex series featuring a PXA255 CPU have been discontinued since 2009 replaced by the Verdex Pro series. | ||||||||||
6 | csb336 | arm | csb336 | mc9328mxl | Wiki Page | Yes | Cogent Computer Systems, Inc. | Link | 2005 | A highly integrated MC9328MXL Single Board Computer. | The board is suitable for tasks requiring low-cost performance such as industrial automation, telematics, medical applications, and more. It also provides utilities for easy connecting to prototype boards. | ||||||||||
7 | lm3s6965 | arm | lm3s69xx | cortex-m3 | Wiki Page | Yes | Stellaris Microcontroller | Link | 2007 | First microcontroller to feature a Cortex M3 and suitable for cost-sensitive, space constrained projects. | The microcontroller is targeted towards industrial use ranging from factory automation to medical instrumentation. Ideal for cost-conscious, space constrained applications, the LM3S6965 also features a hibernation mode for significant energy savings when not in use. Finally, the board has significant connectivity capabilities and processing power suitable for control systems. | ||||||||||
8 | gba | arm | gba | arm7tdmi | Wiki Page | Yes | Nintendo | Link | 2001 | Nintendo Game Boy Advanced handheld gaming device. | The successor to the Game Boy Color, the Game Boy Advance is one of the best selling handheld gaming consoles with over 80 million sold. Games can be loaded on to the device using flash cartridges. | ||||||||||
9 | lpc2362 | arm | lpc24xx | arm7tdmi-s | Wiki Page | Yes | NXP | Link | 2008 | Generic LPC2362 BSP | |||||||||||
10 | lpc24xx_ncs_rom_ext | arm | lpc24xx | arm7tdmi-s | Wiki Page | Yes | NXP | Link | 2008 | Nurse Control Station | Tyco proprietary | ||||||||||
11 | lpc23xx_tli800 | arm | lpc24xx | arm7tdmi-s | Wiki Page | Yes | NXP | Link | 2008 | TLI800 | Tyco proprietary | ||||||||||
12 | lpc24xx_ncs_rom_int | arm | lpc24xx | arm7tdmi-s | Wiki Page | Yes | NXP | Link | 2008 | Nurse Control Station | Tyco proprietary | ||||||||||
13 | lpc24xx_plx800_rom_int | arm | lpc24xx | arm7tdmi-s | NXP | 2012 | PLX800 | Tyco proprietary | |||||||||||||
14 | lpc24xx_ea | arm | lpc24xx | arm7tdmi-s | NXP | 2008 | Evaluation board from Embedded Artists | ||||||||||||||
15 | lpc24xx_ncs_ram | arm | lpc24xx | arm7tdmi-s | NXP | 2008 | Nurse Control Station | Tyco proprietary | |||||||||||||
16 | arm1136js | arm | gdbarmsim | arm1136 | |||||||||||||||||
17 | arm920 | arm | gdbarmsim | arm920 | |||||||||||||||||
18 | arm1136jfs | arm | gdbarmsim | arm1136 | |||||||||||||||||
19 | armcortexa9 | arm | gdbarmsim | arm1136 | |||||||||||||||||
20 | arm7tdmi | arm | gdbarmsim | arm7tdmi | |||||||||||||||||
21 | smdk2410 | arm | smdk2410 | s3c2410 | |||||||||||||||||
22 | lpc32xx_mzx_stage_1 | arm | lpc32xx | arm926ej-s | |||||||||||||||||
23 | lpc32xx_mzx_stage_2 | arm | lpc32xx | arm926ej-s | Wiki Page | Yes | NXP | Link | 2008 | Designed for applications that require high performance, high integration, and low power consumption | Built around a 90-nm, 266MHz ARM926EJ-S CPU core and a Vector Floating Point (VFP) coprocessor. The VFP coprocessor increases the speed of typical calculations by a factor of four to five in scalar mode, and much more in optimized vector mode. | ||||||||||
24 | lpc32xx_mzx | arm | lpc32xx | arm926ej-s | Wiki Page | Yes | NXP | Link | 2008 | Designed for applications that require high performance, high integration, and low power consumption | Built around a 90-nm, 266MHz ARM926EJ-S CPU core and a Vector Floating Point (VFP) coprocessor. The VFP coprocessor increases the speed of typical calculations by a factor of four to five in scalar mode, and much more in optimized vector mode. | ||||||||||
25 | lpc32xx_phycore | arm | lpc32xx | arm926ej-s | Wiki Page | Yes | NXP | Link | 2008 | Designed for applications that require high performance, high integration, and low power consumption | Built around a 90-nm, 266MHz ARM926EJ-S CPU core and a Vector Floating Point (VFP) coprocessor. The VFP coprocessor increases the speed of typical calculations by a factor of four to five in scalar mode, and much more in optimized vector mode. | ||||||||||
26 | nds | arm | nds | arm7tdmi | Wiki Page | Yes | Foxconn | Link | 2004 | Is a portable game console that features a built-in microphone and supports wireless standards. | The nds is a portable game console . A distinctive feature of the system is the presence of two separate LCD screens, the lower of which is a touchscreen, encompassed within a clamshell design, similar to the Game Boy Advance SP. The Nintendo DS also features a built-in microphone and supports wireless standards, allowing players to interact with each other within short range, or online with the Nintendo Wi-Fi Connection service. | ||||||||||
27 | gp32 | arm | gp32 | s3c2400 | Wiki Page | Yes | GamePark | N/A | 2001 | The GP32 (GamePark 32) is a handheld game console developed by the Korean company Game Park. | The GP32 is based on a 133 MHz ARM CPU and 8 MB of RAM. Unlike other hand held gaming systems, which tend to be proprietary cartridge-based, the GP32 uses SmartMedia cards (SMC) for storing programs and data, making it accessible for amateur developers as no further development hardware is required. | ||||||||||
28 | edb7312 | arm | edb7312 | arm720t | Wiki Page | Yes | Cirrus Logic | Link | 2002 | The EP7312 is designed for ultra-low-power applications such as portable handheld devices that require digital audio decompression capability, Internet appliances and low-power industrial controls. | The core-logic functionality of the device is built around an ARM720T processor running at clock speeds up to 90 MHz and 74 MHz with 8 KB of four-way, set-associative, unified cache and a write buffer. Incorporated into the ARM720T is an enhanced memory management unit (MMU), which allows for support of sophisticated operating systems like Microsoft® Windows CE® and Linux®. | ||||||||||
29 | rtl22xx_t | arm | rtl22xx | lpc22xx | Wiki Page | Yes | NXP | Link | 2006 | This BSP is a thumb-enabled version of rtl22xx. Also, this bsp is an example of how development can development/change there own bsp from ARM mode to Thumb mode. | The board has the following features: MCU: LPC2214 16/32 bit ARM7TDMI-S™t with 256K Bytes Program Flash, 16K Bytes RAM, EXTERNAL MEMORY BUS, RTC,4x 10 bit ADC 2.44 uS, * 2x UARTs, I2C, SPI, 2x 32bit TIMERS, 7x CCR, 6x PWM, WDT, 5V tolerant I/O, up to 60MHz operation | ||||||||||
30 | rtl22xx | arm | rtl22xx | lpc22xx | Wiki Page | Yes | NXP | Link | 2006 | RTEMS BSP for Philips(NXP)'s ARM7 processor. | This BSP is designed for Philips's LPC2210/LPC2212/LPC2214/LPC2290/LPC2294 (LPC22xx) serial ARM processor. And it can be ported to LPC21xx ARM MCU. Philip's LPC22xx ARM processor has an ARM7TDMI-S core, and can run at 60MHz. It has an external memory bus and peripherals like UART, I2C, SPI, ADC and etc. Some BSPs have got a flash chip (256k) and CAN. | ||||||||||
31 | avrtest | avr | avrtest | mega128 | Wiki Page | Yes | Atmel Corporation | Link | 2004 | It’s ideal as a board for development purposes | Atmel® AVR® 8- and 32-bit microcontrollers deliver a unique combination of performance, power efficiency, and design flexibility. Optimized to speed time to market, they are based on the industry's most code-efficient architecture for C and assembly programming. | ||||||||||
32 | bf537Stamp | bfin | bf537Stamp | bf537 | Wiki Page | Yes | Analog Devices | Link | 2006 | The board provides developers with a cost effective environment to develop embedded systems with the Blackfin Processor. | The STAMP BSP has been specifically designed to support the development and porting of open source uClinux applications and includes the full complement of memory along with serial and network interfaces. | ||||||||||
33 | eZKit533 | bfin | eZKit533 | bf533 | Wiki Page | Yes | Analog Devices | Link | 2007 | This BSP has a Console Driver for a the built-in UART which supports polling or interrupted mode. | The ADSP-BF533 EZ-KIT Lite provides developers with a cost-effective method for initial evaluation of the ADSP-BF533 Blackfin Processor for a wide range of applications including audio and video processing. The EZ-KIT Lite includes an ADSP-BF533 desktop evaluation board and fundamental debugging software to facilitate architecture evaluations via a USB-based PC-hosted tool set. With this EZ-KIT Lite, users can learn more about ADI's ADSP-BF533 hardware and software development and prototype applications. | ||||||||||
34 | TLL6527M | bfin | TLL6527M | bf52x | Wiki Page | Yes | Analog Devices | Link | 2010 | The ADSP-BF52x processors are members of the Blackfin family of products, incorporating the Analog Devices/Intel Micro Signal Architecture(MSA) | The high performance 16/32-bit Blackfin embedded processor core, the flexible cache architecture, the enhanced DMA subsystem, and the dynamic power management (DPM) functionality allow system designers a flexible platform to address a wide range of portable applications, including consumer, communications and industrial/instrumentation. | ||||||||||
35 | h8sim | h8300 | h8sim | h8300h | Wiki Page | Yes | FSF GNU Debugger | Link | 2006 | This BSP uses the simulator built into gdb | This BSP uses the simulator built into gdb. That simulator does not support a clock interrupt source so is capable of running only limited tests. | ||||||||||
36 | h8sxsim | h8300 | h8sim | h8300h | Wiki Page | No | FSF GNU Debugger | This BSP uses the simulator built into gdb | This BSP uses the simulator built into gdb. That simulator does not support a clock interrupt source so is capable of running only limited tests. | ||||||||||||
37 | pc386 | i386 | pc386 | i386_fp | Wiki Page | YES | Intel | i386DX class CPU with i387 FPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
38 | pc386dx | i386 | pc386 | i386dx | N/A | No | Intel | i386DX class CPU without i387 FPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
39 | pc586-sse | i386 | pc386 | pentium | N/A | No | Intel | Pentium class CPU with SSE extensions | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
40 | pc586 | i386 | pc386 | pentium | N/A | No | Intel | Pentium class CPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
41 | pcp4 | i386 | pc386 | pentium | N/A | No | Intel | Pentium IV class CPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
42 | pc486 | i386 | pc386 | i486dx | N/A | No | Intel | i486 class CPU with integrated FPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
43 | pc686 | i386 | pc386 | pentiumpro | N/A | No | Intel | PC with Pentium Pro class CPU | The PC386 BSP is designed to support a wide variety of PC clones and supports "variants" for the most popular CPU models. The availablility of these variant builds makes it possible to build a BSP which is optimized for a particular CPU model. | ||||||||||||
44 | milkymist | lm32 | milkymist | lm32 | Wiki Page | Yes | Link | 2010 | The Milkymist One is an open hardware product that concentrates all the processing power and the interfaces of an heavily interactive VJ setup into one small box. | The goal of the project is to develop a stand-alone device in a small form factor that is capable of rendering MilkDrop-esque visuals effects in real time, with a high level of interaction with many sensors and using live audio and video streams as a base. | |||||||||||
45 | lm32_evr | lm32 | lm32_evr | lm32 | Wiki Page | Yes | Micro-Research Finland Oy | Link | |||||||||||||
46 | m32csim | m32c | m32cbsp | m32c | Wiki Page | Yes | Renesas | Link | 1998 | This BSP is primarily used for tool testing purposes and it is a functional simulation of whatever CPU model is being simulated. | This is a functional simulator which does not support interrupts. | ||||||||||
47 | m32rsim | m32r | m32rsim | m32r | Wiki Page | Yes | Sharism at Work Ltd. | Link | 1998 | This BSP is primarily used for tool testing purposes and it is a functional simulation of whatever CPU model is being simulated. | This is a functional simulator which does not support interrupts. | ||||||||||
48 | idp | m68k | idp | m68ec040 | Wiki Page | Yes | Motorola | Link | 1996 | A series of products by Motorola that consists of a motherboard and various plug-in modules for different CPUs and I/O modules. | The IDP motherboard is a compact (10.7" x 7.5") printed circuit board. The motherboard is designed to accept any of the M68000 CPU modules and up to five input/output (I/O) modules. | ||||||||||
49 | mcf5225x | m68k | mcf5225x | mcf52258 | DOES NOT EXIST | Yes | Motorola | Link | 2008 | The MCF5225x family consists of highly integrated devices with on-chip USB, Ethernet, CAN and encryption functions. | The MCF5225x family is based on a 32-bit ColdFire® core with up to 80 MHz core frequency, 512 KB flash and 64 KB SRAM. The external bus interface provides flexibility to add additional memory or simple peripherals. | ||||||||||
50 | mcf5206elite | m68k | mcf5206elite | mcf5206 | Wiki Page | Yes | Motorola | Link | 2000 | The M5206eLITE is a versatile single board computer based on MCF5206e ColdFire® Processor. | It may be used as a powerful microprocessor based controller in a variety of applications. With the addition of a terminal, it serves as a complete microcomputer system for development/evaluation, training and educational use. | ||||||||||
51 | mvme147 | m68k | mvme147 | m68030 | Wiki Page | Yes | Emerson Network Power | Link | 1996 | The MVME147 is a double-high VMEmodule based on the MC68030 microprocessor. | It is best utilized in a 32-bit VMEbus system with both P1 and P2 backplanes. The module has high functionality with large onboard shared RAM, serial ports, and Centronics printer port. | ||||||||||
52 | mcf52235 | m68k | mcf52235 | mcf5223x | Wiki Page | Yes | Motorola | Link | 2011 | The MCF52235 represents a family of highly-integrated 32-bit microcontrollers based on the V2 ColdFire microarchitecture. | Featuring up to 32 Kbytes of internal SRAM and 256 Kbytes of flash memory, four 32-bit timers with DMA request capability, a 4-channel DMA controller, fast Ethernet controller, a CAN module, an I2C™ module, 3 UARTs and a queued SPI, the MC52235 family has been designed for general-purpose industrial control applications. | ||||||||||
53 | simcpu32 | m68k | sim68000 | mcpu32 | Wiki Page | Yes | ASH WARE | Link | 1994 | CPU32 simulation engine under ASH WARE's MTDT simulation framework. | Features easy-to-use user interface and advance debugging capabilities. The simulator runs on Windows 7, XP, 2000, NT 4.0 and Linux under Wine. The software features 12 months of full technical support and electronic documentation. | ||||||||||
54 | sim68000 | m68k | sim68000 | m68000 | Wiki Page | Yes | Bradford W. Mott | Link | 1996 | Microprocessor simulation framework written in C++ and Tcl / Tk. | The software has been found to be useful in courses featuring the Motorola 68000 and as a starting point in other projects. The simulator runs on both Unix and Windows (with minor restrictions). It includes a Motorola 68000 simulator & assembler, Motorola 68360 simulator, a graphical user interface, and a C++ library. | ||||||||||
55 | mvme136 | m68k | mvme136 | m68020 | Wiki Page | Yes | Emerson Network Power (formerly Motorola Computer Group) | Link | 1987 | High performance MC68020 microprocessor-based module implemented on a VME double-high, single-wide form-factor. | Designed for applications that require fast on-board RAM and a secondary bus (VSBbus). The features of the board include high performance and an elegant architecture especially suited to applications requiring multiple processors where the efficiency of inter-processor communication is important. It was the first board RTEMS was ported to. | ||||||||||
56 | av5282 | m68k | av5282 | mcf5282 | Wiki Page | Yes | Avnet | Link | 2004 | The evaluation board provides an excellent vehicle for embarking on high-performance embedded networking designs. | Featuring 8 MB of SDRAM, 10/100 BaseT ehternet connectivity, and a debug module, the board has all the components to enable quick design support. | ||||||||||
57 | mrm332 | m68k | mrm332 | m68332 | Wiki Page | Yes | RoboMinds | Link | 2000 | Ideal platform for beginner, intermediate, or advanced amateur robotics. | Specifically designed for building robots of every kind. Contains a MC68332 microprocessor, 512K of Flash, and 32K or 512K of RAM. It measures 2.95 inches square and is easily programmed. | ||||||||||
58 | mcf5329 | m68k | mcf5329 | mcf532x | Wiki Page | Yes | Freescale Semiconductor | Link | 2002 | Includes everything necessary to begin development with the MCF532x processor family. | Features a plugin-in system-on-module containing 32 MB of DDRSDRAM, 16 MB of NAND flash, 2 MB of boot flash, an audio codec, touch screen controller, and other interfaces. The board also features optional equipment allowing it to be easily debugged. | ||||||||||
59 | csb360 | m68k | csb360 | mcf5272 | Wiki Page | Yes | Cogent Computer Systems, Inc. | Link | 2003 | Microcontroller featuring the Motorola Coldfire MCF5272 microprocessor. | Provides excellent performance with low power consumption providing the bases of low-cost, high performance products for industrial automation, telematics, medical applications, and many others. The board can be mated with standard prototyping boards allowing for rapid development. | ||||||||||
60 | gen68302 | m68k | gen68302 | m68302 | Wiki Page | Yes | Freescale Semiconductor Inc. / Motorola | Link | 1997 | BSPs featuring the MC68302 microprocessor. | The MC68302 is a versatile one-chip processor that incorporates the main building blocks needed for the design of a wide variety of networking and communications products. Can be configured to support a number of popular industry-standard interfaces. Through the combination of architectural and programmable features, concurrent operation of different protocols is easily achieved. | ||||||||||
61 | gen68340 | m68k | gen68340 | m68340 | Wiki Page | Yes | Motorola | Link | 1992 | BSPs featuring the MC68340 microprocessor. | The MC68340 is a high-performance 32-bit integrated processor with direct memory access (DMA). Features a combination of peripherals ideal for many microprocessor-based systems, including embedded control and general computing. Systems requiring very high-speed block transfers of data can especially benefit from the MC68340. | ||||||||||
62 | ods68302 | m68k | ods68302 | m68302 | Wiki Page | Yes | Freescale Semiconductor Inc. / Motorola | Link | 1997 | BSPs featuring the MC68302 microprocessor. | The ods68302 should be general enough to use with any BSP featuring a MC68302 processor. See gen68302 BSP. | ||||||||||
63 | uC5282 | m68k | uC5282 | mcf5282 | Wiki Page | Yes | Arcturus Networks Inc. | Link | 2004 | The uC5282 is a compact, embedded microprocessor module ideal for networked control and communication applications. | The uC5282 embedded microprocessor module enables product developers to create multiprotocol control and conversion devices including CAN products suitable for harsh EMI environments. It features a Freescale ColdFire processor with Ethernet support as well as various I/O, serial and peripheral connectivity options. The module integrates into end product using a snap-in soDIMM form-factor connector and is suitable for applications with extreme temperature ranges. | ||||||||||
64 | mvme162 | m68k | mvme162 | m68040 | Wiki Page | Yes | Motorola | Link | 1994 | The MVME162 family provides OEMs and solution developers an ideal platform for embedded monitoring and control apllications it allows an OEM to minimize engineering expenses while integrating value-added hardware and software applications onto an off-the-shelf product. | Te MVME162 allows a variety of MPU, memory and interface options such as floating point, Ethernet, SCSI, and VME to be selected. The result is a variation of the MVME162 which most closely fits the application requirement. Up to four single-wide or two double- wide IndustryPack modules can be installed on the MVME162 and still occupy only one VME slot. As I/O needs change, a new IndustryPack module can be installed thus preserving the customer's overall investment. | ||||||||||
65 | mvme162lx | m68k | mvme162 | m68lc040 | Wiki Page | Yes | Motorola | Link | 1993 | The MVME162LX embedded controller provides a powerful and functional CPU which can be customer-configured for specific applications. | The MVME162LX extends the range of solutions provided by the MVME162FX series by boosting the performance level and increasing the number of options. This flexibility allows a user to configure cost-effective solutions ranging from embedded controllers to single-board computers. With the compute power of the MC68040 and the flexibility of the IndustryPack® mezzanine interface, the MVME162LX combines the mechanical ruggedness of VME with the cost-effectiveness of PC-type products. The MVME162LX board is a low cost alternative to Mvme162 | ||||||||||
66 | mvme147s | m68k | mvme147s | m68030 | Wiki Page | Yes | Motorola Computer Group now Emerson Network Power | Link | 2000 | The MVME 147s is extremely similar to the Mvme147. The main difference between them is that the 147s also has only 2KB of static RAM while the 147 has 4KB. Another small difference between them is the time-of-day clock. The MVME147s has a Mostek MK48T02 while the MVME147 has an M48T18. | The MVME147S is a double-high VMEmodule and is best utilized in a 32-bit VMEbus system with both P1 and P2 backplanes. The module has high functionality with large onboard shared RAM, serial ports, and Centronics printer port. The module provides a SCSI bus controller with DMA, floating-point coprocessor, tick timer, watchdog timer, and time-of-day clock/calendar with battery backup, 2KB of static RAM with battery backup, four ROM sockets, and A32/D32 VMEbus interface with system controller functions are also provided. The MVME147S can be operated as part of a VMEbus system with other VMEmodules such as RAM modules, CPU modules, graphics modules, and analog I/O modules. | ||||||||||
67 | gen68360 | m68k | gen68360 | m68360 | Wiki Page | Yes | Freescale Semiconductors | Link | 1999 | The MC68360 Quad Integrated Communication Controller (QUICC™) is a versatile one-chip integrated microprocessor and peripheral combination family that can be used in a variety of controller applications. | The MC68360 particularly excels in communications activities. The QUICC can be described as a next-generation MC68302, with higher performance in all areas of device operation, increased flexibility, and higher integration. The term "quad" comes from the fact that there are four serial communications controllers (SCCs) on the device. However, there are actually seven serial channels which include four SCCs, two serial management controllers (SMCs), and one serial peripheral interface (SPI). | ||||||||||
68 | gen68360_040 | m68k | gen68360 | m68040 | Wiki Page | No | Freescale Semiconductors | Link | 1999 | gen68360_40 is an alias of mc68360. The MC68360 Quad Integrated Communication Controller (QUICC™) is a versatile one-chip integrated microprocessor and peripheral combination family that can be used in a variety of controller applications. | The MC68360 particularly excels in communications activities. The QUICC can be described as a next-generation MC68302, with higher performance in all areas of device operation, increased flexibility, and higher integration. The term "quad" comes from the fact that there are four serial communications controllers (SCCs) on the device. However, there are actually seven serial channels which include four SCCs, two serial management controllers (SMCs), and one serial peripheral interface (SPI). | ||||||||||
69 | pgh360 | m68k | gen68360 | m68360 | Wiki Page | No | Freescale Semiconductors | Link | 1999 | pgh360 is an alias of mc68360. The MC68360 Quad Integrated Communication Controller (QUICC™) is a versatile one-chip integrated microprocessor and peripheral combination family that can be used in a variety of controller applications. | The MC68360 particularly excels in communications activities. The QUICC can be described as a next-generation MC68302, with higher performance in all areas of device operation, increased flexibility, and higher integration. The term "quad" comes from the fact that there are four serial communications controllers (SCCs) on the device. However, there are actually seven serial channels which include four SCCs, two serial management controllers (SMCs), and one serial peripheral interface (SPI). | ||||||||||
70 | COBRA5475 | m68k | genmcf548x | mcf548x | N/A | No | senTec Elektronik GmbH | Link | 2007 | The COBRA5475 is the higest performing module of the COBRA (ColdFire Board for Rapid Applications) series. | It is based on the MCF5475 ColdFire microprocessor which uses an internal clock of 266 MHz and delivers a performance of 410 MIPS. The fast 128 MByte Double Data Rate SDRAM with 133 MHz supports the high performance of the processor. Several high speed communication interfaces can be used for fast data transfer. The COBRA5475 module is supported by a carrier board and an Embedded Linux board support package which is based on the Linux Target Image Builder (LTIB) configuration software. | ||||||||||
71 | m5484FireEngine | m68k | genmcf548x | mcf548x | Wiki Page | Yes | Fire Engine | Link | 2008 | The M5484LITE Linux development kit provides everything required to quickly develop an embedded Linux design with the MCF548x processor family. | The kit contains a system-on-module, called a Fire Engine, containing 64 MBytes of DDR-SDRAM, 4 MB of Boot Flash,and a USB Device output. The Fire Engine module, along with the included ethernet ports, PCI slot, serial interface, CAN interface, and the best-in-class ColdFire debug module generates a complete package to enable quick design support for the MCF548X Family Processors. The kit software includes the Linux v2.4.26 Kernel, Core Tools, Open Source Compiler along with Serial, I2C, DSPI, Ethernet, USB, and PCI drivers. | ||||||||||
72 | mcf5235 | m68k | mcf5235 | mcf5235 | Wiki Page | Yes | Freescale | Link | 2006 | The ColdFire M523xEVB evaluation board is intended to provide a mechanism for easy customer evaluation of the the MCF523x family of ColdFire microprocessors and to facilitate hardware and software development. | This BSP includes work done for other BSPs written by EricNorum, DPeterSiddons, TillStraumann, BrettSwimley, and JayMonkman. It is based heavily on the uC5282 BSP. The MCF5235EVB is a Motorola evaluation board that is based on the Coldfire MCF5235 32-bit processor. The board includes 32 Mbytes of SDRAM, 2Mbytes of flash, the MCF5235 processor with a max core frequency of 150MHz, Ethernet support, and CAN bus support. This BSP has also been tested to work with the Coldfire MCF5270 processor with a max core frequency of 100MHz. This BSP has also been tested to work with the newer Freescale M5235BCC evaluation board. This BSP has also been tested to work with the Axiom Manufacturing CMM-5235 Board The BSP provides support to run applications from both RAM when debugging and from Flash when the application is complete. The RAM mode, which relies on either the dBug monitor or GDB configuration of the boards hardware, is the default. An alternate linker script is available for stand alone operation from Flash by adding the following line to the applications Makefile: | ||||||||||
73 | mvme167 | m68k | mvme167 | m68040 | |||||||||||||||||
74 | genmongoosev | mips | genmongoosev | mongoosev | |||||||||||||||||
75 | hurricane | mips | hurricane | rm5231 | |||||||||||||||||
76 | jmr3904 | mips | jmr3904 | tx3904 | |||||||||||||||||
77 | csb350 | mips | csb350 | au1x00 | |||||||||||||||||
78 | malta | mips | malta | ||||||||||||||||||
79 | rbtx4938 | mips | rbtx4938 | tx4938 | |||||||||||||||||
80 | rbtx4925 | mips | rbtx4925 | tx4925 | |||||||||||||||||
81 | nios2_iss | nios2 | nios2_iss | economy | |||||||||||||||||
82 | no_bsp | no_cpu | no_bsp | no_cpu_model | |||||||||||||||||
83 | haleakala | powerpc | haleakala | ppc405 | |||||||||||||||||
84 | mvme3100 | powerpc | mvme3100 | e500 | Wiki Page | Yes | Emerson Network Power | Link | 2009 | The MVME3100 is a VME board based on a MPC750 processor. | The Emerson Network Power MVME3100 SBC helps OEMs of industrial, medical, and defense/aerospace VMEbus platforms add performance and features for competitive advantage while still protecting the fundamental investment in VMEbus and related technologies. Customers can keep their VMEbus infrastructure (chassis, backplanes, and other VMEbus and PMC boards) while improving performance and extending the lifecycle. Also, the extended lifecycle of Emerson computing products helps reduce churns in development and support efforts resulting from frequent product changes. | ||||||||||
85 | qoriq_p1020rdb | powerpc | qoriq | qoriq | N/A | No | Freescale | Link | 2011 | The QorIQ P1020 reference design board (RDB) can help shorten your time to market for networking, wired and wireless access, industrial and medical applications. | The P1020RDB leverages the P1020 processor and supports both the dual-core P1020 and single-core P1011 configurations. The P1020 processor family is based on the e500 core. | ||||||||||
86 | qoriq_core_0 | powerpc | qoriq | qoriq | N/A | No | Freescale | Link | 2011 | ||||||||||||
87 | qoriq_core_1 | powerpc | qoriq | qoriq | N/A | No | Freescale | Link | 2011 | ||||||||||||
88 | tqm8xx_stk8xx | powerpc | tqm8xx | mpc860 | N/A | No | Technology in Quality | Link | 1999 | The STK855L is a Plug & Play Evaluation & Application Kit with Freescale Microprocessor MPC855. | The Minimodul Type TQM855LCB0A3-T80 has 16 MByte SDRAM and 4 MByte FLASH on Board. The Starterkit will be powered up with the Power Supply which is included. | ||||||||||
89 | pghplus | powerpc | tqm8xx | mpc860 | N/A | No | |||||||||||||||
90 | qemuppc | powerpc | qemuppc | mpc6xx | N/A | No | This is a BSP for the Qemu simulator configured to simulator a very basic PowerPC board. It is used for testing including coverage testing and development tool chain testing. | This is a BSP for the Qemu simulator configured to simulator a very basic PowerPC board. It is used for testing including coverage testing and development tool chain testing. | |||||||||||||
91 | mpc8260ads | powerpc | mpc8260ads | mpc8260 | Wiki Page | Yes | Freescale | Link | 1999 | The MPC8260ADS family of boards supports the MPC8255, MPC8260, and MPC8264 integrated processors | The MPC8260ADS board has 16MB of SDRAM DIMM (up to 64MB) on the 60x bus, 4MB of SDRAM on the local bus, and an 8MB Program Flash SIMM (up to 32MB) module. The MPC8260ADS-PQ2 includes an MPC8260 processor, one 100MB Ethernet port, two serial ports, and a single-fiber ATM connection. | ||||||||||
92 | mbx860_005b | powerpc | mbx8xx | mpc860 | Wiki Page | Yes | Motorola | Link | 2001 | The MPC860 processor is especially well-suited for applications involving communications and networking systems | The CPU on the MPC860 is a 32-bit PowerPC™ implementation incorporating memory management units (MMUs) and instruction/data caches.It has a communications processor module that includes an Interprocessor-Integrated Controller (I2C) channel for data exchanges between the MPC860 and other ICs with I2C capability — microcontrollers, LCD displays, real-time clock devices, etc. | ||||||||||
93 | mbx821_002b | powerpc | mbx8xx | mpc821 | Wiki Page | No | Motorola | Link | 2001 | MBX821 models include 40 MHz MPC821 processor. | The CPU on the MPC821 is a 32-bit PowerPC implementation incorporating memory management units (MMUs) and instruction/data caches. It has a real-time clock and a communications processor module that includes serial communication controllers, serial management controllers, a serial peripheral interface (SPI) channel, and an Interprocessor-Integrated Controller (I2C) channel for data exchanges between the MPC821 and other ICs with I2C capability. | ||||||||||
94 | mbx821_002 | powerpc | mbx8xx | mpc821 | http://www.rtems.org/wiki/index.php/Mbx821_002_(add_page_and_link_on_Mbx8xx_page) | No | Motorola | https://docs.google.com/viewer?url=http%3A%2F%2Fwww.equinox-tech.com%2Fdownloads%2Ffreescale%2FMBXA_IH1.pdf | 1997 | MBX series boards are a family of small form factor (5.75 × 8 inch) embedded controllers. They provide single-board computer functionality with emphasis on open communications and networking capabilities. | The MBX series has two parallel branches whose differences lie in the processor that powers them: one configuration is based on Motorola’s MPC821 embedded processor, while the other uses an MPC860 processor. The MPC860 version offers two additional serial communications controllers (SCCs) than the MPC821; the MPC821 version has an integrated LCD controller in their place. In other respects, the logic design is the same for both versions | ||||||||||
95 | mbx860_002 | powerpc | mbx8xx | mpc860 | http://www.rtems.org/wiki/index.php/Mbx860_002 | No | Motorola | https://docs.google.com/viewer?url=http%3A%2F%2Fwww.emersonnetworkpower.com%2Fen-US%2FProducts%2FEmbeddedComputing%2FDocuments%2FDocumentationArchive%2FTechnicalDocumentation%2F02%2Fmbxapg.pdf | 2001 | Standard version 4MB DRAM 4MB Flash EIDE PC/104-Plus auxiliary ports | |||||||||||
96 | mbx860_1b | powerpc | mbx8xx | mpc860 | http://www.rtems.org/wiki/index.php/Mbx860_1b | No | Motorola | https://docs.google.com/viewer?url=http%3A%2F%2Fwww.emersonnetworkpower.com%2Fen-US%2FProducts%2FEmbeddedComputing%2FDocuments%2FDocumentationArchive%2FTechnicalDocumentation%2F02%2Fmbxapg.pdf | 2001 | Standard version 4MB DRAM 4MB Flash EIDE PC/104-Plus auxiliary ports | |||||||||||
97 | mbx860_001b | powerpc | mbx8xx | mpc860 | http://www.rtems.com/wiki/index.php/Mbx860_001b | No | Motorola | http://www.equinox-tech.com/products/details.asp?ID=525 | 2001 | MBX is a small standard EBX form factor board for embedded applications. Featuring the MPC860P PowerQUICC processor and with integrated communications and RISC processor, the MBX860 delivers real-time performance demanded by today's real-time applications | MBX series boards are based on the EBX (5.75" ´ 8") industry-standard form factor specification. MBX boards provide single-board computer functionality with emphasis on open communications and networking capabilities. They offer open interfaces such as PCI, ISA, and PCMCIA in addition to Ethernet and serial/parallel I/O. The features they incorporate make them well suited for embedded real-time applications in such areas as communications, industrial automation, and electronic imaging. | ||||||||||
98 | mbx821_001 | powerpc | mbx8xx | nbx821 | http://www.rtems.org/wiki/index.php/Mbx821-001 | No | Motorola | https://docs.google.com/viewer?url=http%3A%2F%2Fwww.equinox-tech.com%2Fdownloads%2Ffreescale%2FMBXA_IH1.pdf | 1997 | The MPC821 processor is especially well-suited for applications where lower power is essential, such as portable and/or high- performance communications systems. | The CPU on the MPC821 is a 32-bit PowerPC™ implementation incorporating memory management units (MMUs) and instruction/data caches. It has a communications processor module that includes: Two serial communication controller (SCC) channels, Two serial management channels (SMCs), A serial peripheral interface (SPI) channel an Interprocessor-Integrated Controller (I2C) channel for dataexchanges between the MPC821 and other ICs with I2Ccapability — microcontrollers, LCD displays, real-time clock devices, etc. | ||||||||||
99 | psim | powerpc | psim | mpc6xx | http://www.rtems.org/wiki/index.php/Psim | Yes | IBM | http://www.powersimtech.com/ | 1996 | PSIM is a program written in extended ANSI-C that emulates the Instruction Set Architecture of the PowerPC microprocessor family. It is freely available in source code form under the terms of the GNU General Public License (version 2 or later). | It is now packaged with GDB and is included in the pre-built RTEMS tool binaries. | ||||||||||
100 | score603e | powerpc | score603e | mpc6xx | http://www.rtems.org/wiki/index.php/Score603e | Yes | Vista Controls | http://vista-controls.industrialpartner.com/products-s/score-603e.htm | Vista Controls Score603e VMEBus board. This BSP supports multiple generations of this board using the DINK32 monitor. It also supports a Vista mezzanine module with 8 serial ports. |