CSCI-375 Operating Systems
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1 CSCI-375 Operating Systems Lecture 2 Note: Many slides and/or pictures in the following are adapted from: slides 2005 Silberschatz, Galvin, and Gagne Some slides and/or pictures in the following are adapted from: slides 2007 UCB by Kubiatowicz
2 Defining Operating Systems No universally accepted definition Everything a vendor ships when you order an operating system is good approximation But varies wildly The one program running at all times on the computer is the one generally used in this course This is the kernel Everything else is either a system program (ships with the operating system) or an application program
3 Computer System Organization Computer-system operation One or more CPUs, device controllers connect through common bus providing access to shared memory Concurrent execution of CPUs and devices competing for memory cycles
4 Computer System Operation I/O devices and the CPU can execute concurrently Each device controller is in charge of a particular device type Each device controller has a local buffer CPU moves data from/to main memory to/from local buffers I/O is from the device to local buffer of controller Device controller informs CPU that it has finished its operation by causing an interrupt
5 Computer Startup and Execution bootstrap program is loaded at power-up or reboot Typically stored in ROM or EEPROM, generally known as firmware Initializes all aspects of system Loads operating system kernel and starts execution Kernel runs, waits for event to occur Interrupt from either hardware or software Hardware sends trigger on bus at any time Software triggers interrupt by system call Stops current kernel execution, transfers execution to fixed location Interrupt service routine executes and resumes kernel where interrupted Usually a service routine for each device / function» Interrupt vector dispatches interrupt to appropriate routine
6 Interrupt Timeline
7 Interrupt Controller Timer Interrupt Mask Priority Encoder Interrupt CPU Int Disable Network Software Interrupt Control Interrupts invoked with interrupt lines from devices Interrupt controller chooses interrupt request to honor Mask enables/disables interrupts Priority encoder picks highest enabled interrupt Software Interrupt Set/Cleared by Software CPU can disable all interrupts with internal flag
8 Example: Network Interrupt External Interrupt add subi slli $r1,$r2,$r3 $r4,$r1,#4 $r4,$r4,#2 lw $r2,0($r4) lw $r3,4($r4) add $r2,$r2,$r3 sw 8($r4),$r2 Transfer Network Packet from hardware to Kernel Buffers Interrupt Handler
9 Common Functions of Interrupts Interrupt transfers control to the interrupt service routine generally, through the interrupt vector, which contains the addresses of all the service routines Interrupt architecture must save the address of the interrupted instruction Incoming interrupts are disabled while another interrupt is being processed to prevent a lost interrupt A trap is a software-generated interrupt caused either by an error or a user request An operating system is interrupt-driven
10 Storage Structure Programs must be in main memory (RAM) to execute Von-Neumann architecture START Fetch next instruction from Memory to IR Increment PC NO Decode and Execute Instruction in IR STOP? YES
11 Storage Structure Ideally, we want programs and data to reside in main memory permanently Main memory is usually too small Main memory is volatile loses contents on power loss Secondary storage holds large quantities of data, permanently Magnetic disk is the most common secondary-storage device Actually, a hierarchy of storage varying by speed, cost, size and volatility
12 Storage-Device Hierarchy
13 Examples of Secondary Storage Media An old one A more recent one
14 Storage Hierarchy Storage systems organized in hierarchy according to speed, cost, and volatility A program in execution (i.e., a process) generates a stream of memory addresses START Fetch next instruction from Memory to IR Increment PC Decode and Execute Instruction in IR NO STOP? YES
15 Storage Hierarchy What if next instruction/data is not in (main) memory? Problem: Memory can be a bottleneck for processor performance Solution: Rely on memory hierarchy of faster memory to bridge the gap
16 Caching Important principle, performed at many levels in a computer (in hardware, operating system, software) Information in use copied from slower to faster storage temporarily Faster storage (cache) checked first to determine if information is there If it is, information used directly from the cache (fast) If not, data copied to cache and used there What is cache for disk (e.g., secondary memory)?
17 Caching Analogy You are going to do some research on a particular topic. Thus, you go to the library and look for the a shelve that contains books on that particular topic You pick up a book from the shelve, find a chair, seat and start reading
18 Caching Analogy You find a reference to another book on the same topic that you are also interested in reading. Thus, you stand up, go to the same shelve, leave the first book and pick up the other book Then, you go back to the chair and start reading the second book Later on you realize that you want to read the first book once again (or another related book). Thus, you repeat the same process (i.e., go to the shelve to find it)
19 Caching Analogy Suppose that instead of taking just one book from the shelve, you take 10 books on the same topic. Then, you find a table with a chair, put the 10 books on the table, sit there and start reading one of the books If you need another related book, there is a good chance that it is on your table so you don t have to go to the shelve to get it. Also, you can leave the first book on the table and there is a good chance that you will be needing it again later
20 Caching Analogy The table is a cache for what? If the book that you need is on the table, you have a cache hit If the book that you need is not on the table, you have a cache miss Cache smaller than storage being cached Cache management important design problem Cache size and replacement policy
21 Caching Temporal Locality (locality in time) Recently accessed items tend to be accessed again the near future Keep most recently accessed data closer to the processor In the analogy? Spatial Locality (locality in space) Accesses are clustered in the address space Move words consisting of contiguous words to the faster levels In the analogy? Why are gotos not good?
22 Caching We know that, statistically, only a small amount of the entire memory space is being accessed at any given time and values in that subset are being accessed repeatedly Locality properties allow us to use a small amount of very fast memory to effectively accelerate the majority of memory accesses The result is that we end up with a memory system that can hold a large amount of information (in a large, low-cost memory) yet provide nearly the same access speed as would be obtained from having all of the memory be very fast and expensive
23 Caching Suppose a memory reference is generated by the CPU and it generates a cache miss (i.e., corresponding value is not in the cache) In the analogy, you don t have the book that you need on the table The address is sent to main memory to fetch the desired word and load it into the cache. However, the cache is already full. You must replace one of the values in the cache. What do you think would be a good policy for choosing the value to be replaced? In the analogy, the table is full, which book do you remove from the table to make room for the new one?
24 Caching Given that we want to keep values that we will need again soon, what about getting rid of the one that won t be needed for the longest time? Choosing which value to replace is called the replacement policy Will cover this in detail in chapter 9
25 In general
26 In general Hit: data appears in some block in the faster level Hit Rate: The fraction of memory accesses found in the higher level Hit Time: Time to access the faster level which consists of Memory Access Time + Time to determine hit/miss Miss: data needs to be retrieved from a block in the slower level Miss Rate: 1 (Hit Rate) Miss Penalty: Time to replace a block in the upper level + Time to deliver the block to the processor Hit Time << Miss Penalty Will cover memory management in chapters 8 and 9
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