Please help me with the following question. Please show your work so I can understand how you arrived at the solution. PLEASE DO NOT COPY OTHER ANSWERS FROM THE INTERNET. Those answers are incorrect and or do not show work.
The following is a page table for a system with 12-bit virtual and physical addresses and 256-byte pages. Free page frames are to be allocated in the order 9, F, D.
**A dash for a page frame indicates that the page is not in memory.**
Homework Answers
![12 bit Virtual 12 bit Physical Address Addreese. I Page No I Page size] Virtual Addres I frame No Framelize / a Page Sige = f](http://img.homeworklib.com/questions/96f2d2d0-7ec1-11eb-b00d-e3f7e5a436b8.png?x-oss-process=image/resize,w_560)
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Please help me with the following question. Please show your
work so I can understand how...
1) The following page table illustrates a system with 12-bit virtual and physical addresses and 256-byte...
1) The following page table illustrates a system with 12-bit virtual and physical addresses and 256-byte pages. Free page frames are to be allocated in the order9 F, D. A dash for a page frame indicates that the page is not in memory. (4 points) Page Page-Frame 0x4 OxB 0 2 4 0x2 0x0 0xC 7 Convert the following virtual addresses to their equivalent physical addresses irn hexadecimal. All numbers are given in hexadecimal. In the case of a page...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as well as physica...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as well as physical addresses and with 4,096-byte pages. The reference bit is set to 1 when the page has been referenced. Periodically, a thread zeroes out all values of the reference bit. A dash for a page frame indicates the page is not in memory. The LRll pagg-replacement algorithm is used. The numbers are given in decimal Page Frame eferepceit 14 10 13 15...
For part A: convert the virtual address into page numbers and offset, and then into hexadecimal...
For part A: convert the virtual address into page numbers and
offset, and then into hexadecimal numbers. Redraw the page table
showing which pages were referenced and in any needed to be loaded
into memory and what frame was selected. Assume frames 6,7,11,and
12 are available.
9.22 The page table shown in Figure 9.32 is for a system with 16-bit virtual and physical addresscs and with 4,096-byte pages. The reference bit is been referenced. Periodically, a thread zeroes out all...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as well as physical addresses and with 4,096-byte pages. The reference bit is set to 1 when the page has been referenced. Periodically, a thread zeroes out all values of the reference bit. A dash for a page frame indicates the page is not in memory. The LRll pagg-replacement algorithm is used. The numbers are given in decimal Page Frame eferepceit 14 10 13 15...
Q1. Suppose we have a virtual memory of size 2 Terabytes (2048GB, or 241 bytes), where...
Q1. Suppose we have a virtual memory of size 2 Terabytes (2048GB, or 241 bytes), where pages are 8KB (213 bytes) each, and the machine has 4GB (232 bytes) of physical memory. a) Compute the number of page table entries needed if all the pages are being used. b) Compute the size of the page table if each page table entry also required 4 additional bits (valid, protection, dirty, use). Q2. For this problem, you are given a...
Question 1 Which of the following is true about virtual addresses? Virtual addresses for the same...
Question 1 Which of the following is true about virtual addresses? Virtual addresses for the same physical memory location may differ from process to process Virtual addresses are synonymous with physical addresses Virtual addresses always refer to locations on disk Virtual addresses for the same physical memory location may differ from thread to thread Question 2 How do pages and frames relate to each other? A page holds words while a frame holds pictures A frame is a larger structure...
Paging Questions 1. A page is 1 KB in size. How many bits are required to...
Paging Questions 1. A page is 1 KB in size. How many bits are required to store the page offset? 2. A page entry has 10 bits. What is the size of the page table? 3. A logical address is 32 bits long. The page size is 4 KB. Divide the address into its page number and offset. 4. The following hexadecimal addresses are used in a system with a 20-bit logical address where the page size is 256 bytes....
please answer $5 UXIF map in the computer uses direct mapping Question 18 5 pts Suppose...
please answer
$5 UXIF map in the computer uses direct mapping Question 18 5 pts Suppose we have a byte-addressable computer using 2-way set associative mapping with 16-bit main memory addresses and 32 blocks of cache. Suppose also that each block contains 8 bytes. The size of the block offset field is bits, the bits. size of the set field is bits, and the size of the tag field is 5 pts Question 19 Suppose we have a byte-addressable computer...
Hello, I need help with the questions below. And, can you show your work so I...
Hello, I need help with the questions below. And, can you show
your work so I can understand how you got your answer. Without the
work, I won't be able to comprehend how you split the subnets.
Please and thank you.
Name Day/Night Homework 5 Subnetting For the Class A network 5.0.0.0 which has been subnetted into 2 subnets, fill in the following chart (dotted decimal). Show your work. (6 points) Network Address Broadcast Address Host Address Range First Subnet...
I need help with this Managerial Accounting question. please show work so that I can understand...
I
need help with this Managerial Accounting question. please show
work so that I can understand it better.
1. Data for Wolf Manufacturing Company (uses process costing method): Percent Complete Units Materials Conversion 40,000 (100%) (60%) Beginning Work in Process Ending Work in Process 10,000 (60%) (20%) Units started during the period - 70,000. Units completed during the period - 100,000 Percentage of completion for materials and conversion are given in the table above. a. Complete the equivalent units of...
1) The following page table illustrates a system with 12-bit virtual and physical addresses and 256-byte pages. Free page frames are to be allocated in the order9 F, D. A dash for a page frame indicates that the page is not in memory. (4 points) Page Page-Frame 0x4 OxB 0 2 4 0x2 0x0 0xC 7 Convert the following virtual addresses to their equivalent physical addresses irn hexadecimal. All numbers are given in hexadecimal. In the case of a page...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as well as physical addresses and with 4,096-byte pages. The reference bit is set to 1 when the page has been referenced. Periodically, a thread zeroes out all values of the reference bit. A dash for a page frame indicates the page is not in memory. The LRll pagg-replacement algorithm is used. The numbers are given in decimal Page Frame eferepceit 14 10 13 15...
For part A: convert the virtual address into page numbers and
offset, and then into hexadecimal numbers. Redraw the page table
showing which pages were referenced and in any needed to be loaded
into memory and what frame was selected. Assume frames 6,7,11,and
12 are available.
9.22 The page table shown in Figure 9.32 is for a system with 16-bit virtual and physical addresscs and with 4,096-byte pages. The reference bit is been referenced. Periodically, a thread zeroes out all...
Problem 6 (13 points) The page table below is for a system with 16-bit virtual as well as physical addresses and with 4,096-byte pages. The reference bit is set to 1 when the page has been referenced. Periodically, a thread zeroes out all values of the reference bit. A dash for a page frame indicates the page is not in memory. The LRll pagg-replacement algorithm is used. The numbers are given in decimal Page Frame eferepceit 14 10 13 15...
Question 1 Which of the following is true about virtual addresses? Virtual addresses for the same physical memory location may differ from process to process Virtual addresses are synonymous with physical addresses Virtual addresses always refer to locations on disk Virtual addresses for the same physical memory location may differ from thread to thread Question 2 How do pages and frames relate to each other? A page holds words while a frame holds pictures A frame is a larger structure...
please answer
$5 UXIF map in the computer uses direct mapping Question 18 5 pts Suppose we have a byte-addressable computer using 2-way set associative mapping with 16-bit main memory addresses and 32 blocks of cache. Suppose also that each block contains 8 bytes. The size of the block offset field is bits, the bits. size of the set field is bits, and the size of the tag field is 5 pts Question 19 Suppose we have a byte-addressable computer...
Hello, I need help with the questions below. And, can you show
your work so I can understand how you got your answer. Without the
work, I won't be able to comprehend how you split the subnets.
Please and thank you.
Name Day/Night Homework 5 Subnetting For the Class A network 5.0.0.0 which has been subnetted into 2 subnets, fill in the following chart (dotted decimal). Show your work. (6 points) Network Address Broadcast Address Host Address Range First Subnet...
I
need help with this Managerial Accounting question. please show
work so that I can understand it better.
1. Data for Wolf Manufacturing Company (uses process costing method): Percent Complete Units Materials Conversion 40,000 (100%) (60%) Beginning Work in Process Ending Work in Process 10,000 (60%) (20%) Units started during the period - 70,000. Units completed during the period - 100,000 Percentage of completion for materials and conversion are given in the table above. a. Complete the equivalent units of...
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