CS230 Midterm 1. INTRO - Program translation (pre-processor – compiler – assembler – linker) - Hardware (read command from keyboard – load executable from disk to memory – write from memory to display) - Cache used to improve performance - Memory hierarchy (words, cache lines, cache lines, disk blocks, files) - OS protect & hardware interface - Process (OS’ abstraction for a running program, multiple process run concurrently, each process has exclusive use of hardware) - Process context switching - Virtual memory makes process think it own whole memory space - 32-bit machine… 4GB address space given to single process (virtually) - machine instructions, printf (“hello world”), global variables, subroutine, printf, download? - Kernel virtual memory (OS code, initial program calls. Invisible to user code) - Networks - GPU - Android S/W (System apps, Java API framework, Native C/C++ libraries, Android runtime,) - ARM (Advanced RISC Machines - Application, Real time, Micro, SecurCore. 37 registers 32-bit) - Bootloader U-boot (RAM data lost when turn off, need to store in Flash memory. When boot copy itself to SDRAM and take control of it. It initializes most hardware) - Linux (Process management, Memory management, File systems, Device control, Networking) - Android 101 (Activity – screen, Service – background, Content provider – data) - Dalvik (Virtual machine on Android, .dex, register-based architecture) - Android internals (WebKit – internet, SQLite – database, SGL/OpenGL-ES – graphics, OpenCORE – media) 2. BIT & INT - why bits, byte, data size - binary Adder (should be in 4. logic design) - boolean algebra, logical operations - shift - byte ordering (big/little endian) - unsigned, 2’s complement - umax, umin, tmax, tmin - mapping - sign extension - addition, overflow 3. FLOAT - IEEE Standard 754 - encoding (sign bit, exp field, frac field) - single 1 8 23, double 1 11 52 - normalized E = exp – Bias, M = 1.xxxxxx - denormalized E = 1 – Bias, M = 0.xxxxxx, why? - special (Inf, NaN) - rounding 4. LOGIC DESIGN - logic gates (and, or, not) - bit equality, word equality - bit-level multiplexor, word multiplexor - ALU, + - & ^, OF ZF CF - bistable element, R-S latch, 1-bit latch, edge-triggered latch, registers - state machine (accumulator circuit) - RAM 5. MU0 - ISA - processor (a finite-state automation that executes instructions held in a memory) - MU0 (PC, ACC, ALU, IR, control logic) - ISA (16-bit machine, 12-bit address, instruction format, instruction set) - instruction execution sequence (Fetch 2, Decode 1, Execute 3) - logic design (datapath… RTL design, control logic… FSM approach) - Datapath operation (2 stage… execution & initialization, “reset”. ALU output 000!" to PC) - Control logic (Simple FSM, 2 state ‘fetch’ ‘execute’, 1 bit of state Ex/ft) - Control logic table - ALU Design (A+B A-B B B+1 0, 5 inst - 2 signal, 0 implemented by ‘reset’) 6. Machine I (Basics) - IA-32 Intel 64, CISC (Complex Instruction Set Computer), RISC (Reduced), 1503 inst in x86 - ISA, microarchitecture - CPU (PC, registers, condition codes), Memory (code, data, stack) - registers - operations 7. Machine II (Control) 8. Machine III (Procedures) 9. Machine IV (Data) -