sim/erc32/README.erc32 - third_party/binutils-gdb - Git at Google


 1. MEC and ERC32 emulation

 The file 'erc32.c' contains a model of the MEC, 512 K rom and 4 M ram.

 The following paragraphs outline the implemented MEC functions.

 1.1 UARTs

 The UARTs are connected to two pseudo-devices, /dev/ttypc and /dev/ttypd.
 The following registers are implemeted:

 - UART A RX and TX register	(0x01f800e0)
 - UART B RX and TX register	(0x01f800e4)
 - UART status register		(0x01f800e8)

 To speed up simulation, the UARTs operate at approximately 115200 baud.
 The UARTs generate interrupt 4 and 5 after each received or transmitted
 character.  The error interrupt is generated if overflow occurs - other
 errors cannot occure.

 1.2 Real-time clock and general pupose timer A

 The following registers are implemeted:

 - Real-time clock timer				(0x01f80080, read-only)
 - Real-time clock scaler program register 	(0x01f80084, write-only)
 - Real-time clock counter program register 	(0x01f80080, write-only)

 - Genearl pupose timer 				(0x01f80088, read-only)
 - Real-time clock scaler program register 	(0x01f8008c, write-only)
 - General purpose timer counter prog. register 	(0x01f80088, write-only)

 - Timer control register			(0x01f80098, write-only)

 1.3 Interrupt controller

 The interrupt controller is implemented as in the MEC specification with
 the exception of the interrupt shape register. Since external interrupts
 are not possible, the interrupt shape register is not implemented. The
 only internal interrupts that are generated are the real-time clock,
 the general purpose timer and UARTs. However, all 15 interrupts
 can be tested via the interrupt force register.

 The following registers are implemeted:

 - Interrupt pending register		       (0x01f80048, read-only)
 - Interrupt mask register		       (0x01f8004c, read-write)
 - Interrupt clear register		       (0x01f80050, write-only)
 - Interrupt force register		       (0x01f80054, read-write)

 1.4 Breakpoint and watchpoint register

 The breakpoint and watchpoint functions are implemented as in the MEC
 specification. Traps are correctly generated, and the system fault status
 register is updated accordingly. Implemeted registers are:

 - Debug control register			(0x01f800c0, read-write)
 - Breakpoint register				(0x01f800c4, write-only)
 - Watchpoint register				(0x01f800c8, write-only)
 - System fault status register			(0x01f800a0, read-write)
 - Firts failing address register		(0x01f800a4, read-write)


 1.5 Memory interface

 The following memory areas are valid for the ERC32 simulator:

 0x00000000 - 0x00080000		ROM (512 Kbyte, loaded at start-up)
 0x02000000 - 0x02400000		RAM (4 Mbyte, initialised to 0x0)
 0x01f80000 - 0x01f800ff		MEC registers

 Access to unimplemented MEC registers or non-existing memory will result
 in a memory exception trap. However, access to unimplemented MEC registers
 in the area 0x01f80000 - 0x01f80100 will not cause a memory exception trap.
 The written value will be stored in a register and can be read back. It
 does however not affect the function in any way.

 The memory configuartion register is used to define available memory
 in the system. The fields RSIZ and PSIZ are used to set RAM and ROM
 size, the remaining fields are not used.  NOTE: after reset, the MEC
 is set to decode 4 Kbyte of ROM and 256 Kbyte of RAM. The memory
 configuration register has to be updated to reflect the available memory.

 The waitstate configuration register is used to generate waitstates.
 This register must also be updated with the correct configuration after
 reset.

 The memory protection scheme is implemented - it is enabled through bit 3
 in the MEC control register.

 The following registers are implemeted:

 - MEC control register (bit 3 only)		(0x01f80000, read-write)
 - Memory control register			(0x01f80010, read-write)
 - Waitstate configuration register		(0x01f80018, read-write)
 - Memory access register 0			(0x01f80020, read-write)
 - Memory access register 1			(0x01f80024, read-write)

 1.6 Watchdog

 The watchdog is implemented as in the specification. The input clock is
 always the system clock regardsless of WDCS bit in mec configuration
 register.

 The following registers are implemeted:

 - Watchdog program and acknowledge register	(0x01f80060, write-only)
 - Watchdog trap door set register		(0x01f80064, write-only)

 1.7 Software reset register

 Implemented as in the specification (0x01f800004, write-only).

 1.8 Power-down mode

 The power-down register (0x01f800008) is implemented as in the specification.
 However, if the simulator event queue is empty, power-down mode is not
 entered since no interrupt would be generated to exit from the mode. A
 Ctrl-C in the simulator window will exit the power-down mode.

 1.9 MEC control register

 The following bits are implemented in the MEC control register:

 Bit	Name	Function
 0	PRD	Power-down mode enable
 1	SWR	Soft reset enable
 3	APR	Access protection enable

	1. MEC and ERC32 emulation

	The file 'erc32.c' contains a model of the MEC, 512 K rom and 4 M ram.

	The following paragraphs outline the implemented MEC functions.

	1.1 UARTs

	The UARTs are connected to two pseudo-devices, /dev/ttypc and /dev/ttypd.
	The following registers are implemeted:

	- UART A RX and TX register (0x01f800e0)
	- UART B RX and TX register (0x01f800e4)
	- UART status register (0x01f800e8)

	To speed up simulation, the UARTs operate at approximately 115200 baud.
	The UARTs generate interrupt 4 and 5 after each received or transmitted
	character. The error interrupt is generated if overflow occurs - other
	errors cannot occure.

	1.2 Real-time clock and general pupose timer A

	The following registers are implemeted:

	- Real-time clock timer (0x01f80080, read-only)
	- Real-time clock scaler program register (0x01f80084, write-only)
	- Real-time clock counter program register (0x01f80080, write-only)

	- Genearl pupose timer (0x01f80088, read-only)
	- Real-time clock scaler program register (0x01f8008c, write-only)
	- General purpose timer counter prog. register (0x01f80088, write-only)

	- Timer control register (0x01f80098, write-only)

	1.3 Interrupt controller

	The interrupt controller is implemented as in the MEC specification with
	the exception of the interrupt shape register. Since external interrupts
	are not possible, the interrupt shape register is not implemented. The
	only internal interrupts that are generated are the real-time clock,
	the general purpose timer and UARTs. However, all 15 interrupts
	can be tested via the interrupt force register.

	The following registers are implemeted:

	- Interrupt pending register (0x01f80048, read-only)
	- Interrupt mask register (0x01f8004c, read-write)
	- Interrupt clear register (0x01f80050, write-only)
	- Interrupt force register (0x01f80054, read-write)

	1.4 Breakpoint and watchpoint register

	The breakpoint and watchpoint functions are implemented as in the MEC
	specification. Traps are correctly generated, and the system fault status
	register is updated accordingly. Implemeted registers are:

	- Debug control register (0x01f800c0, read-write)
	- Breakpoint register (0x01f800c4, write-only)
	- Watchpoint register (0x01f800c8, write-only)
	- System fault status register (0x01f800a0, read-write)
	- Firts failing address register (0x01f800a4, read-write)


	1.5 Memory interface

	The following memory areas are valid for the ERC32 simulator:

	0x00000000 - 0x00080000 ROM (512 Kbyte, loaded at start-up)
	0x02000000 - 0x02400000 RAM (4 Mbyte, initialised to 0x0)
	0x01f80000 - 0x01f800ff MEC registers

	Access to unimplemented MEC registers or non-existing memory will result
	in a memory exception trap. However, access to unimplemented MEC registers
	in the area 0x01f80000 - 0x01f80100 will not cause a memory exception trap.
	The written value will be stored in a register and can be read back. It
	does however not affect the function in any way.

	The memory configuartion register is used to define available memory
	in the system. The fields RSIZ and PSIZ are used to set RAM and ROM
	size, the remaining fields are not used. NOTE: after reset, the MEC
	is set to decode 4 Kbyte of ROM and 256 Kbyte of RAM. The memory
	configuration register has to be updated to reflect the available memory.

	The waitstate configuration register is used to generate waitstates.
	This register must also be updated with the correct configuration after
	reset.

	The memory protection scheme is implemented - it is enabled through bit 3
	in the MEC control register.

	The following registers are implemeted:

	- MEC control register (bit 3 only) (0x01f80000, read-write)
	- Memory control register (0x01f80010, read-write)
	- Waitstate configuration register (0x01f80018, read-write)
	- Memory access register 0 (0x01f80020, read-write)
	- Memory access register 1 (0x01f80024, read-write)

	1.6 Watchdog

	The watchdog is implemented as in the specification. The input clock is
	always the system clock regardsless of WDCS bit in mec configuration
	register.

	The following registers are implemeted:

	- Watchdog program and acknowledge register (0x01f80060, write-only)
	- Watchdog trap door set register (0x01f80064, write-only)

	1.7 Software reset register

	Implemented as in the specification (0x01f800004, write-only).

	1.8 Power-down mode

	The power-down register (0x01f800008) is implemented as in the specification.
	However, if the simulator event queue is empty, power-down mode is not
	entered since no interrupt would be generated to exit from the mode. A
	Ctrl-C in the simulator window will exit the power-down mode.

	1.9 MEC control register

	The following bits are implemented in the MEC control register:

	Bit Name Function
	0 PRD Power-down mode enable
	1 SWR Soft reset enable
	3 APR Access protection enable