Diff for /wikisrc/ports/evbarm.mdwn between versions 1.1 and 1.88

version 1.1, 2012/04/29 13:46:32 version 1.88, 2020/09/15 07:21:58
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 [[!template id=port  [[!template id=port
 port="evbarm"  port="evbarm"
 cur_rel="5.1.2"  port_alt="arm"
 future_rel="6.0"  port_var1="earm"
 changes_cur="5.0"  port_var2="earmeb"
 changes_future="6.0"  port_var3="earmv6hf"
 thumbnail="http://www.netbsd.org/images/ports/evbarm/adi_brh.gif"  port_var4="earmv7hf"
   port_var5="earmv7hfeb"
   port_var6="aarch64"
   port_var_install_notes="evbarm-earm"
   cur_rel="9.0"
   future_rel="10.0"
   changes_cur="9.0"
   changes_future="10.0"
   thumbnail="//www.netbsd.org/images/ports/evbarm/adi_brh.gif"
 about="""  about="""
 NetBSD/evbarm is the port of NetBSD to various evaluation and prototyping  NetBSD/evbarm is the port of NetBSD to various evaluation and prototyping
 boards based on CPUs implementing the ARM architecture. NetBSD/evbarm also  boards based on CPUs implementing the ARM architecture. NetBSD/evbarm also
 supports some specific embedded system products based on prototype board  supports some specific embedded system products based on prototype board
 designs.  designs.
   
 Jason Thorpe is the maintainer of NetBSD/evbarm.  ### CPU types
 """  
 supported_hardware="""  The evbarm port can be built with a variety of CPU options, corresponding to the
   * Technologic Systems **TS-7200**  [large array of ARM CPU architectures](https://en.wikipedia.org/wiki/ARM_architecture#Cores).
   There are
 The TS-7200 is a low-cost mass-produced PC/104 embedded single board computer  four main variables: the word size, the instruction set, the
 intended as a general purpose core for real embedded applications. The TS-7200  endianness, and whether there is hardware floating point.  By default
 uses the Cirrus Logic EP9302 ARM9 system-on-chip and comes with a PC/104 (isa)  the CPU type is "earm", and this implies aarch32 (32-bit), earmv5 cpu
 bus and can either boot to CompactFlash or onboard flash. The board also has  architecture, little endian (el when explicitly stated), and soft
 general purpose digital IO and optional multichannel analog-to-digital  (Emulated) floating point.  Another example, suitable for Raspberry PI
 converters. More information on the TS-7200 can be found at [Technologic  2, is earmv7hf, which is aarch32, the v7 instruction set, little
 Systems](http://www.embeddedarm.com/epc/ts7200-spec-h.html).  endian, and hardware floating point.
   
 Support for the TS-7200 was written by Jesse Off  Typically, various boards are best compiled with a CPU type that
   matches the board's CPU and floating point support, but generally a
     * On-CPU RS232 UARTs (2) (_epcom_)  lower CPU instruction set version is workable on a newer board.  See
     * On-CPU 10/100 Ethernet MAC (_epe_)  build.sh and look for aliases for the evbarm port.
     * CompactFlash socket (_wdc_)  
     * USB 1.1 ports (2) (_ohci_)  Through NetBSD 8, the evbarm port has supported exclusively the
     * Watchdog timer on CPLD (_tspld_)  aarch32 (32-bit CPU) sub-family of the ARM architecture.  Some
     * TMP124 high precision temperature sensor via sysctl  processors, such as many supporting the armv8 CPU architecture, also
     * 64Hz system clock from on-CPU timers (_epclk_)  support a 64-bit instruction set, referred to as aarch64.  This is
     * HD44780 2x24 text mode LCD (_tslcd_)  sometimes referred to as a distinct port, [[NetBSD/aarch64|aarch64]],
     * 4x4 16 button matrix keypad (_wskbd_)  with code in src/sys/arch/aarch64, but it is built as the evbarm port
     * TS-5620 battery backed RTC daughter-card (_tsrtc_)  with aarch64 cpu type, and available as the alias evbarm64.
     * 1,2,4 port serial TS-SER daughter cards (_com_)  
     * Up to 4 10Mb TS-ETH10 daughter cards (_tscs_)  Note that MACHINE_ARCH=aarch64 currently refers to the A64 instruction
     * Other devices inserted into the PC/104 (_isa_) expansion slot  set and the aarch64 architecture, built for the armv8 architecture.
   (Note also that armv8 is the first architecture to support aarch64, so
   * ARM, Ltd. **Integrator**  this will not be an issue until at least armv9.)
   
 The Integrator/AP is an ATX form-factor board that is used for development of  ### armbsd.org builds
 ARM processor-based designs. It supports up to four processors on plug-in core  
 modules, and provides clocks, a bus interface, and interrupt support. The  NetBSD developer Jared McNeill provides [builds of NetBSD 9 and -current for a vast variety of hardware.](https://www.armbsd.org/)   In addition to the standard build, these images have board-specific U-Boot contents.  See also /usr/pkgsrc/sysutils/u-boot*.
 Integrator/AP also supports logic modules which provide additional  
 peripherals, and can accommodate up to three PCI expansion cards. The  ### Board specific information (often including installation information)
 Integrator/AP can also be inserted into a CompactPCI backplane.  
    - [[Allwinner sunxi family SoCs|Allwinner]]
 Support for the Integrator was written by Richard Earnshaw, and contributed by   - [[BeagleBone, BeagleBone Black, and PocketBeagle|BeagleBone]]
 ARM, Ltd.   - [[NVIDIA Tegra|Tegra]]
    - [[ODROID C1 and C1+|ODROID-C1]]
     * PrimeCell PL010 UARTs in the System Controller FPGA (_plcom_)   - [[Raspberry Pi 1, 2 and 3|Raspberry Pi]]
     * PrimeCell PL030 Real-time Clock in the System Controller FPGA (_plrtc_)   - [[RockChip SoCs|RockChip]]
     * Other devices inserted into the PCI expansion slots   - [[Terasic DE0 Nano-SoC|Cyclone5]]
   
   * Intel **IQ31244**  **NOTE**: This list is incomplete. For a full list of supported boards, please see the list of [32-bit](https://github.com/NetBSD/src/blob/netbsd-9/sys/arch/evbarm/conf/GENERIC#L18) and [64-bit](https://github.com/NetBSD/src/blob/netbsd-9/sys/arch/evbarm/conf/GENERIC64#L20) device trees.
   
 The IQ31244 is a development platform for the Intel **IOP321** I/O Processor  ### QEMU
 chipset and the Intel **i31244** SATA controller.  
   See the [[NetBSD/evbarm under QEMU|qemu_arm]] page for instructions on how to get started with QEMU.
 Initial support for the IQ31244 was written by Jason Thorpe, and contributed  
 by Wasabi Systems, Inc.  ### anita
   
     * Quad on-board Intel i31244 SATA controllers on the PCI-X bus (_artsata_)  anita can be used to test builds.  (In addition to anita, install qemu and dtb-arm-vexpress from pkgsrc.)   The release subdirectory should follow the naming convention on the autobuild cluster, used below.
     * On-board Intel i82546EB Gigabit Ethernet on the PCI-X bus (_wm_)  
     * On-board NS16550-compatible serial port (_com_)   - evbarm-earmv7hf uses "qemu-system-arm -M vexpress-a15"
     * On-chip timers (TMR0 used as system clock)   - evbarm-aarch64 uses "qemu-system-aarch64 -M virt"
     * On-chip Application Accelerator Unit (_iopaau_)   - Information on how to test emulated versions of other specific hardware is welcome.
     * On-chip watchdog timer (_iopwdog_)  
     * On-board compact flash reader (_wdc_)  
     * Other devices inserted into the PCI-X expansion slot  
   
   * Intel **IQ80310**  
   
 The IQ80310 is the reference platform for the Intel **IOP310** I/O Processor  
 chipset, which is comprised of the i80200 XScale processor and the i80312 I/O  
 Companion chip.  
   
 Support for the IQ80310 was written by Jason Thorpe and Allen Briggs, and  
 contributed by Wasabi Systems, Inc.  
   
     * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)  
     * On-board timer in the CPLD (used as system clock)  
     * On-board NS16550-compatible serial ports (_com_)  
     * Other devices inserted into the PCI expansion slots  
   
   * Intel **IQ80321**  
   
 The IQ80321 is the reference platform for the Intel **IOP321** I/O Processor  
 (i80321 XScale processor).  
   
 Support for the IQ80321 was written by Jason Thorpe, and contributed by Wasabi  
 Systems, Inc.  
   
     * On-board Intel i82544EI Gigabit Ethernet on the PCI-X bus (_wm_)  
     * On-board NS16550-compatible serial port (_com_)  
     * On-chip timers (TMR0 used as system clock)  
     * On-chip Application Accelerator Unit (_iopaau_)  
     * On-chip watchdog timer (_iopwdog_)  
     * Other devices inserted into the PCI-X expansion slots  
   
   * Team ASA, Inc. **Npwr**  
   
 The Npwr is an IOP310-based design targeted at the network-attached storage  
 space. The Npwr comes in several configurations (single or dual Gigabit  
 Ethernet, single or dual Ultra160 SCSI), and can be purchased as a bare board  
 or as a small server appliance. More information on the Npwr can be found at  
 the [Team ASA web page](http://www.teamasa.com/).  
   
 Support for the Npwr was written by Jason Thorpe and Allen Briggs, and  
 contributed by Wasabi Systems, Inc.  
   
     * On-board Intel i82544 Gigabit Ethernet on the PCI bus (_wm_)  
     * On-board LSI Logic 53c1010 Ultra160 SCSI on the PCI bus (_siop_)  
     * On-board timer in the CPLD (used as system clock)  
     * On-board NS16550-compatible serial port (_com_)  
   
   * Intel **IXM1200**  
   
 The IXM1200 is the reference platform for the Intel **IXP1200** Network  
 Processor.  
   
 Support for the IXM1200 was written by Ichiro FUKUHARA and Naoto Shimazaki.  
   
     * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)  
     * On-board Intel i21555 Non-Transparent PCI-PCI Bridge (_nppb_)  
     * On-chip timers (ixpclk0 used as system clock)  
     * On-chip serial port (_ixpcom_)  
   
   * Samsung **SMDK2410**  
   
 The SMDK2410 is the reference platform for the Samsung **S3C2410** processor,  
 which has an ARM920T core.  
   
 More information on the S3C2410 can be found at [Samsung Electronics web page]  
 (http://www.samsung.com/Products/Semiconductor/MobileSoC/ApplicationProcessor/  
 ARM9Series/S3C2410/S3C2410.htm).  
   
 Support for the SMDK2410 was written by Hiroyuki Bessho, and contributed by  
 Genetec Corp.  
   
     * On-chip serial ports (_sscom_)  
     * On-chip USB host controller (_ohc_)  
     * On-chip timers (used as system clock)  
     * On-chip SPI (_ssspi_, used for other on-board devices)  
     * 240x320 TFT LCD (_lcd_)  
     * keyboard. (_sskbd_)  
   
   * Samsung **SMDK2800**  
   
 The SMDK2800 is the reference platform for the **Samsung S3C2800** processor,  
 which has an ARM920T core.  
   
 S3C2800 has built-in PCI controller, and SMDK2800 has three PCI slots.  
   
 Support for the SMDK2800 was written by Hiroyuki Bessho, and contributed by  
 Fujitsu Component Ltd., and Genetec Corp.  
   
     * On-chip serial ports (_sscom_)  
     * On-chip Host-PCI bridge (_sspci_)  
     * On-chip timers (used as system clock)  
     * Other devices inserted into the PCI slots   
   
   * ADI Engineering **BRH** ("Big Red Head")   
   
 The BRH is an evaluation and development platform for the Intel **i80200**  
 XScale processor. The BRH is based on ADI's **BECC** ("Big Endian Companion  
 Chip"). The BRH is capable of both big- and little-endian operation, although  
 NetBSD currently only supports little-endian operation. More information about  
 the BRH can be found on [ADI Engineering's web  
 page](http://www.adiengineering.com/productsBRH.html).  
   
 Support for the BRH was written by Jason Thorpe, and contributed by Wasabi  
 Systems, Inc.  
   
     * On-board NS16550-compatible serial ports (_com_)  
     * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)  
     * On-chip timer on the BECC (used as system clock)  
     * Other devices inserted into the PCI slot  
   
 The BRH comes with 128M of SDRAM. Systems with BECC revision 7 or less are  
 limited to 64M due to the layout of the PCI DMA windows. Users of these  
 systems should obtain an FPGA upgrade from ADI to revision 8 or later of the  
 BECC.  
   
   * NOVATEC **NTNP425B** ("ZAO425")   
   
 NTNP425B is an evaluation and development platform for the Intel **IXP425**  
 XScale Core NetworkProcessor. NTNP425B is based on the reference board of  
 Intel **IXDP425**. The **NTNP425B** is capable of only big-endian operation.  
 Since the library for micro-engine(NPE) offered from Intel Corp. is big-  
 endian. More information about the **NTNP425B** can be found on [product  
 catalogue of **NTNP425B**(2.5MB,PDF  
 file)](http://www.novatec.co.jp/NTNP425BBrochureE.pdf).  
   
 Support for the NTNP425B was written by Ichiro FUKUHARA.  
   
     * On-chip timers (_ixpclk0_ used as system clock)  
     * On-chip 2 serial port (_ixpcom0_ and _ixpcom1_)  
     * Other devices inserted into the PCI/mPCI slot  
     * On-chip watchdog timer (_ixpwdog_)  
   
   * Intel **DBPXA250** ("Lubbock")   
   
 DBPXA250 (a.k.a. Lubbock) is an evaluation and development platform for the  
 Intel **PXA250** XScale Core application processor. More information about the  
 **DBPXA250** can be found at [Intel web  
 site](http://www.intel.com/design/pca/applicationsprocessors/swsup/index.htm).  
   
 Support for the **DBPXA250** was written by Hiroyuki Bessho, and contributed  
 by Genetec Corp.  
   
     * On-chip timers (_saost_ used as system clock)  
     * On-chip 2 serial port (_com_)  
     * On-board SMC91C96 ethernet (_sm_)  
     * On-board SA-1111 StrongArm companion chip (_sacc_)  
     * PS/2 keyboard (_pckbd_)  
     * 640x480 LCD (_lcd_)  
     * PCMCIA and CF card slots  
   
   * Arcom **Viper**  
   
 The Arcom Viper is a single board computer based on the PXA255 XScale  
 processor.  
   
 Support for the Arcom Viper was written by Antti Kantee.  
   
     * On-chip timers (_saost_ used as system clock)  
     * On-chip serial ports (_com_)  
     * On-board SMC91C111 ethernet (_sm_)   
   
   * Atmark Techno **Armadillo-9**  
   
 The Armadillo-9 is a single board computer based on the EP9315 processor.  
   
 Support for the Armadillo-9 was written by Katsuomi Hamajima.  
   
     * On-CPU RS232 UARTs (2) (_epcom_)  
     * On-CPU 10/100 Ethernet MAC (_epe_)  
     * system clock from on-CPU timers (_epclk_)  
     * CompactFlash socket (_eppcic_)  
     * USB 1.1 ports (_ohci_)  
   
   * Gumstix, Inc. **gumstix**  
   
 The [gumstix](http://www.gumstix.com/) is a small form-factor motherboard  
 based on the PXA255 and PXA270 XScale processor. Supports only PXA255 now.  
   
 Support for the gumstix was written by KIYOHARA Takashi.  
   
     * basix  
     * cfstix  
     * etherstix  
     * netCF  
     * netDUO  
     * netDUO-mmc  
     * netMMC   
   
 When booting, it is necessary to set these with u-boot dynamically.  
   
 > go 0xa0200000 busheader=basix  
   
     * audiostix  
     * console-st (waysmall - STUART)  
     * console-hw (waysmall)  
     * GPSstix (GPS not test)  
     * tweener  
 """  
 aditional="""  
   * The [NetBSD Diskless HOWTO](/docs/network/netboot/)  
   * [ Porting NetBSD/evbarm to the Arcom Viper](http://www.cs.hut.fi/~pooka/pubs/EuroBSDCon2005/viper.pdf), presented at EuroBSDCon 2005.   
 """  
 ]]  
 [[!tag tier1port]]  
   
   [[!tag tier1port]]

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  Added in v.1.88


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