The Following 4 Users Say Thank You to Brodyga For This Useful Post: | ||
|
2017-11-26
, 12:48
|
|
Posts: 3,141 |
Thanked: 8,161 times |
Joined on Feb 2013
@ From my Gabriola Island hermitage, near the Edge of the World
|
#2
|
The Following 3 Users Say Thank You to endsormeans For This Useful Post: | ||
Tags |
emulator, nokia n8x0 |
|
From interesting features of the program that it can emulate the n800/810 hardware and many others. This is quemu-system-arm port for android http://limboemulator.weebly.com/arm-emulator.html
Features:
The following devices are emulated for the ARM Integrator / CP card:
- Processor ARM926E, ARM1026E, ARM946E, ARM1136 or Cortex-A8
- Two UART PL011
- Network card SMC 91c111
- LCD controller PL110
- PL050 KMI with PS / 2 keyboard and mouse
- MMC PL181 interface and memory card
For the ARM Versatile card, the following devices are emulated:
- Processor ARM926E, ARM1136 or Cortex-A8
- Vector interrupt controller PL190
- Four UART PL011
- Network card SMC 91c111
- LCD controller PL110
- PL050 KMI with PS / 2 keyboard and mouse
- PCI bus. Note that it only provides access to memory space, but not IO. This means that some devices (for example, ne2k_pci NIC) are unsuitable, and others (for example, rtl8139 NIC) can only be used if guest drivers use managed memory registers.
- PCI OHCI USB controller
- Adapter LSI53C895A PCI SCSI with support for hard drives and CDs
- MMC PL181 interface and memory card
Several variants of ARM RealView are supported, including EB, PB-A8 and PBX-A9. Due to the peculiarities of interaction with the loader, these boards will only work with certain Linux kernel configurations.
The PB-A8 core should have CONFIG_REALVIEW_HIGH_PHYS_OFFSET enabled and 512 MB of RAM be calculated. Kernels for the PBX-A9 board must have the CONFIG_SPARSEMEM parameter turned on and the CONFIG_REALVIEW_HIGH_PHYS_OFFSET parameter disabled, and also be calculated for 1024 MB of RAM.
The following devices are emulated:
- Processor ARM926E, ARM1136, ARM11MPCore, Cortex-A8 or Cortex-A9 MPCore
- ARM AMBA interrupt controller
- Four UART PL011
- Network card SMC 91c111 or SMSC LAN9118
- LCD controller PL110
- PL050 KMI with PS / 2 keyboard and mouse
- PCI bus
- PCI OHCI USB controller
- Adapter LSI53C895A PCI SCSI with support for hard drives and CDs
- MMC PL181 interface and memory card
For PDAs based on XScale ("Spitz", "Akita", "Borzoi" and "Terrier") the following devices are emulated:
- Intel PXA270 SoC (core ARM V5TE)
- NAND flash memory
- IBM / Hitachi DSCM hard drive in PXA PCMCIA slot - except for "Akita"
- Integrated OHCI USB controller
- Integrated LCD-controller
- Built-in real time clock
- TI ADS7846 touch screen on the SSP bus
- Analog-digital converter Maxim MAX1111 on the I2C bus
- Keyboard controller connected to GPIO, and LEDs
- A memory card connected to the PXA MMC / SD interface
- Three built-in UARTs
- Decoder WM8750 on the bus I2C or I2S
For Palm Tungsten E (code name "Cheetah") the following devices are emulated:
- Texas Instruments OMAP310 SoC (core ARM 925T)
- ROM and RAM memory (firmware image can be loaded with -option-rom)
- Integrated LCD-controller
- Built-in real time clock
- Touch screen TI TSC2102i / analog-to-digital converter / decoder connected via MicroWire or I2S interface
- Matrix keyboard connected to GPIO
- A memory card connected to the OMAP MMC / SD interface
- Three built-in UARTs
For tablets Nokia N800 and N810 (also known as RX-34 and RX-44/48) the following devices are emulated:
- Texas Instruments OMAP2420 SoC (core ARM 1136)
- RAM and non-volatile flash memory OneNAND
- Display connected to the remote EPSON frame buffer, OMAP video controller and LS041y3 controller MIPI DBI-C
- Touch screens TI TSC2301 (in N800) or TI TSC2005 (in N810), controlled by the SPI bus
- QWERTY keyboard controlled by the National Semiconductor LM8323 board on the I2C bus
- A memory card connected to the OMAP MMC / SD interface
- Three built-in OMAP UART and STI debugging console
- Bluetooth (R) transceiver and HCI connected to UART
- USB-controller Mentor Graphics "Inventra", built-in chip TI TUSB6010 - only USB-host mode is supported
- Temperature sensor TI TMP105, controlled by I2C bus
- Power management board TI TWL92230C with real time clock on I2C bus
- Nokia RETU and TAHVO multi-purpose chips with real-time clock connected via CBUS
For Luminary Micro Stellaris LM3S811EVB the following devices are emulated:
- The core of the Cortex-M3 processor.
- 64 KB of flash memory and 8 KB of SRAM.
- Timers, UART, ADC and I2C bus.
- OSRAM Pictiva 96x16 OLED with the controller SSD0303 on the I2C bus.
For Luminary Micro Stellaris LM3S6965EVB the following devices are emulated:
- The core of the Cortex-M3 processor.
- 256 KB of flash memory and 64 KB of SRAM.
- Timers, UART, ADC, I2C and SSI interfaces.
- OSRAM Pictiva 96x16 OLED with a controller SSD0323, connected via SSI.
For Internet radio Freecom MusicPal the following devices are emulated:
- The core of Marvell MV88W8618 ARM
- 32 MB of RAM, 256 KB of SRAM, 8 MB of flash memory
- Up to two 16550 UARTs
- Network card MV88W8xx8
- Sound card MV88W8618, decoder WM8750 and mixer
- Display 128 × 64 with brightness adjustment
- Two buttons, two navigation wheels with button functions
Models of Siemens SX1 v1 and v2 (by default). The following devices are emulated:
- Texas Instruments OMAP310 SoC (Core ARM 925T)
- ROM and RAM (firmware image can be loaded with -pflash), V1 (16 and 8 MB), V2 (32 MB)
- Integrated LCD-controller
- Built-in real time clock
- A memory card connected to the OMAP MMC / SD interface
- Three built-in UARTs
Can it be useful for us? What do you think?