Objectives: Introduction to the PeANUt Illustrative Computer
Transcription
Objectives: Introduction to the PeANUt Illustrative Computer
Objectives: Introduction to the PeANUt Illustrative Computer ref: [PeANUt Spec, sect 1–2.7] (online), old PeANUt lecture (P1) l to understand the basic elements of the PeANUt architecture n CPU n registers n memory and how they interact during the execution cycle l to be familiar with its basic instruction set design, including addressing modes COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 1 The PeANUt Architecture 0 MEMORY MAR MDR SP XR AC ALU CONTROL UNIT CC ... CI PC EXCEPTION UNIT ... I/O UNIT TABLE 1023 Data Pathways Control Pathways Exception Pathways Address Pathways User The PeANUt Computer COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 2 PeANUt Memory l 1024 cells (= 1 word) n cell addresses 0 . . . 1023 n need 10 address lines (210 = 1024) l each cell has 16 bits (2 bytes) l there are 3 pathways: n address lines (10 bits, input only) n data lines (16 bits, input and output) n control lines (2 bits, Read/Write, Enable) l address lines connected to MAR (Memory Address Register) in the CPU l data lines connected to MDR (Memory Data Register) in the CPU l control lines connected to the control unit in the CPU COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 3 Memory Access l memory contains both programs and data (strings, variables, etc.) l to read: (from memory to CPU) 1. CPU puts the address in MAR 2. CPU signals Read, Enable 3. memory puts the data from the specified address into the MDR l to write: (from CPU to memory) 1. CPU puts the address in MAR 2. CPU puts the data in MDR 3. CPU signals Write, Enable 4. memory puts MDR contents into the specified address COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 4 CPU (Central Processing Unit) l contains: n control unit: the circuits that supervise n registers (16 bits each) n ALU (Arithmetic and Logic Unit) l PeANUt is a von Neumann architecture (C = A op B, or B = A) ALU B MEMORY ... A, C ... COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 5 Registers l PSW: Program Status Word. Contains CC and PC n CC (Condition Codes): (bits 15-10 of PSW) holds the ALU status information n PC (Program Counter): (bits 9-0 of PSW) holds the address of the next instruction l AC: Accumulator l SP: Stack Pointer l XR: Index Register l CI: Current Instruction l MAR: Memory Address Register l MDR: Memory Data Register l the ALU is capable of arithmetic (2’s complement) and logic operations COMP2300: Introduction to the PeANUt 2015 JJ J • I II × 6 Execution Cycle l the control unit decodes the current instruction and controls the execution by controlling the individual components of the CPU l execution cycle: REPEAT PC ← PC + 1 CI ← mem[PC-1] (instruction Fetch) Evaluate Operand Execute Instruction (’s operation) Service Exceptions (if any) FOREVER l the instruction fetch sequence: MAR ← PC-1 (memory) Read, Enable MDR ← mem[MAR] CI ← MDR Control Unit decodes CI l data flow varies with different instructions COMP2300: Introduction to the PeANUt consider LOAD 18 (at address 108) 2015 JJ J • I II × 7 The PeANUt Instruction Set l all instructions are 16 bits long (1 memory cell) l each instruction has up to three components: n an opcode, identifying the instruction (’s operation) ([PeANUt Spec, Table 1]) u e.g. 011 identifies an add instruction n an operand specifier (opspec) n an (addressing) mode (may be implicit (and fixed), or N/A) l the opspec and mode determine the operand: the data upon which the instruction operates (also may be implicit) n e.g. an operand of 1 may result in 1 being added to AC l all instr’ns may be classified according to their instruction format ([PeANUt Spec, p. 3]): format One Two fields 15 13 12 mode opcode 15 COMP2300: Introduction to the PeANUt 0 opspec 10 9 opcode 15 Three 10 9 0 opspec 9 8 opcode 0 unused 2015 JJ J • I II × 8 Instruction Addressing Modes l (Q: why don’t PeANUt instructions just have a single format?) l the mode determines how the operand specifier (opspec) is interpreted l every arithmetic and load/store instruction has one of the following modes: code 000 001 010 011 100 name immediate (#) direct indirect (@) indexed (∗) stack (!) value (for a load) opspec mem[opspec] mem[mem[opspec]] mem[opspec + XR] mem[opspec + SP] COMP2300: Introduction to the PeANUt use (small) constants (normal) variables pointer variables arrays function calls/locals 2015 JJ J • I II × 9