Conventions that this manual can use are described in:
The typographical conventions are:
Highlights important notes, introduces special terminology, denotes internal cross-references, and citations.
Highlights interface elements, such as menu names. Denotes ARM processor signal names. Also used for terms in descriptive lists, where appropriate.
Denotes text that you can enter at the keyboard, such as commands, file and program names, and source code.
Denotes a permitted abbreviation for a command or option. You can enter the underlined text instead of the full command or option name.
Denotes arguments to monospace text where the argument is to be replaced by a specific value.
- monospace bold
Denotes language keywords when used outside example code.
- < and >
Angle brackets enclose replaceable terms for assembler syntax where they appear in code or code fragments. They appear in normal font in running text. For example:
MRC p15, 0 <Rd>, <CRn>, <CRm>, <Opcode_2>
The Opcode_2 value selects which register is accessed.
The figure named Figure 1 explains the components used in timing diagrams. Variations, when they occur, have clear labels. You must not assume any timing information that is not explicit in the diagrams.
The signal conventions are:
- Signal level
The level of an asserted signal depends on whether the signal is active-HIGH or active-LOW. Asserted means HIGH for active-HIGH signals and LOW for active-LOW signals:
- Prefix A
Denotes Advanced eXtensible Interface (AXI) global and address channel signals.
- Prefix B
Denotes AXI write response channel signals.
- Prefix C
Denotes AXI low-power interface signals.
- Prefix H
Denotes Advanced High-performance Bus (AHB) signals.
- Prefix n
Denotes active-LOW signals except in the case of AHB or Advanced Peripheral Bus APB reset signals. These are named HRESETn and PRESETn respectively.
- Prefix P
Denotes APB signals.
- Prefix R
Denotes AXI read channel signals.
- Prefix W
Denotes AXI write channel signals.
The numbering convention is:
- <size in bits>’<base><number>
This is a Verilog method of abbreviating constant numbers. For example:
‘h7B4 is an unsized hexadecimal value.
‘o7654 is an unsized octal value.
8’d9 is an eight-bit wide decimal value of 9.
8’h3F is an eight-bit wide hexadecimal value of
0x3F. This is equivalent to b00111111.
8’b1111 is an eight-bit wide binary value of b00001111.