摘要:
Page size prediction is used to predict a page size for a page of memory being accessed by a memory access instruction such that the predicted page size can be used to access an address translation data structure. By doing so, an address translation data structure may support multiple page sizes in an efficient manner and with little additional circuitry disposed in the critical path for address translation, thereby increasing performance.
摘要:
Page size prediction is used to predict a page size for a page of memory being accessed by a memory access instruction such that the predicted page size can be used to access an address translation data structure. By doing so, an address translation data structure may support multiple page sizes in an efficient manner and with little additional circuitry disposed in the critical path for address translation, thereby increasing performance.
摘要:
A method and apparatus for efficiently storing an effective address (EA) in an effective to real address translation (ERAT) table supporting multiple page sizes by adding PSI fields, based on the number of unique page sizes supported, to each ERAT entry and using one ERAT entry to store an EA for a memory page, regardless of page size, by setting the PSI fields to indicate the page size.
摘要:
A system, method, and program product are provided that identifies a cache set using Translation LookAside Buffer (TLB) attributes. When a virtual address is requested, the method, system, and program product identifies a cache set using buffer attributes. When a virtual address is received, an attempt is made to load the received virtual address from a cache. When the attempt results in a cache miss, a page is identified within a Translation LookAside Buffer that includes the virtual address. A class identifier is then retrieved from the identified page, with the class identifier identifying a cache set that is selected from the cache.
摘要:
A system, method, and program product are provided that identifies a cache set using Segment LookAside Buffer attributes. When an effective address is requested, an attempt is made to load the received effective address from an L2 cache. When this attempt results in a cache miss, the system identifies a segment within the Segment LookAside Buffer that includes the effective address. A class identifier is retrieved from the identified segment within the Segment LookAside Buffer. This class identifier identifies a cache set selected from the cache for replacement. Data is then reloaded into the cache set of the cache by using the retrieved class identifier that corresponds to the effective address.
摘要:
A system, method, and program product are provided that identifies a cache set using Segment LookAside Buffer attributes. When an effective address is requested, an attempt is made to load the received effective address from an L2 cache. When this attempt results in a cache miss, the system identifies a segment within the Segment LookAside Buffer that includes the effective address. A class identifier is retrieved from the identified segment within the Segment LookAside Buffer. This class identifier identifies a cache set selected from the cache for replacement. Data is then reloaded into the cache set of the cache by using the retrieved class identifier that corresponds to the effective address.
摘要:
A system, method, and program product are provided that identifies a cache set using Translation LookAside Buffer (TLB) attributes. When a virtual address is requested, the method, system, and program product identifies a cache set using buffer attributes. When a virtual address is received, an attempt is made to load the received virtual address from a cache. When the attempt results in a cache miss, a page is identified within a Translation LookAside Buffer that includes the virtual address. A class identifier is then retrieved from the identified page, with the class identifier identifying a cache set that is selected from the cache.