How many frames are available for user processes when the maximum number of user processes are present in memory?

Please explain how to do this in a more organized manner than what is presented in the work shown.

CSCI 310 Discussion-Questions-13 review part II Suppose a particular computer system uses paging. Each page table entry is 8 bytes long. However, four bytes of each entry is reserved for 1-bit flag values such as a valid bit and various protection bits. The frame number may use the remainder of the page table entry. Suppose that the page size is 4096 bytes. Logical addresses are 32- bits in length. A one-level hierarchical page table is used. For each process, a complete page table is memory resident. The maximum degree of multiprogramming is 127. The kernel has its own complete page table that is also memory resident. The os 5 kernel (excluding page tables) always uses 256 MB of physical memory. Assume that each page table is maintained by the kernel outside of the logical address space of the associated process. The physical hardware supports memory addresses up to 32-bits in length. Suppose one-half of the maximum usable physical memory is present on this computer. How many frames are available for user processes when the maximum number of user processes are present in memory? E 23 So 60 72 a. ?? ao 3 1 28 0 31 , 3 a1 -3 s 3.2 3 .3 CSCI 310 Discussion-Questions-13 review part II Suppose a particular computer system uses paging. Each page table entry is 8 bytes long. However, four bytes of each entry is reserved for 1-bit flag values such as a valid bit and various protection bits. The frame number may use the remainder of the page table entry. Suppose that the page size is 4096 bytes. Logical addresses are 32- bits in length. A one-level hierarchical page table is used. For each process, a complete page table is memory resident. The maximum degree of multiprogramming is 127. The kernel has its own complete page table that is also memory resident. The os 5 kernel (excluding page tables) always uses 256 MB of physical memory. Assume that each page table is maintained by the kernel outside of the logical address space of the associated process. The physical hardware supports memory addresses up to 32-bits in length. Suppose one-half of the maximum usable physical memory is present on this computer. How many frames are available for user processes when the maximum number of user processes are present in memory? E 23 So 60 72 a. ?? ao 3 1 28 0 31 , 3 a1 -3 s 3.2 3 .3