A storage device includes a storage controller and a host interface which sends an address translation service request to a host. The host interface includes an address translation cache which stores first address information included in the address translation service request, and an address translation service latency storage which stores latency-related information including a first time until the address translation cache receives an address translation service response corresponding to the address translation service request from the host. After the host interface sends the address translation service request to the host based on the latency-related information including the first time, and after the first time elapses, the storage controller polls the host interface.

An apparatus and method for tagged memory management. For example, one embodiment of a processor comprises: execution circuitry to execute instructions and process data, at least one instruction to generate a system memory access request having a first address pointer; and address translation circuitry to determine whether to translate the first address pointer with or without metadata processing, wherein if the first address pointer is to be translated with metadata processing, the address translation circuitry to: perform a lookup in a memory metadata table to identify a memory metadata value, determine a pointer metadata value associated with the first address pointer, and compare the memory metadata value with the pointer metadata value, the comparison to generate a validation of the memory access request or a fault condition, wherein if the comparison results in a validation of the memory access request, then accessing a set of one or more address translation tables to translate the first address pointer to a first physical address and to return the first physical address responsive to the memory access request.

An apparatus and method for tagged memory management. For example, one embodiment of a processor comprises: execution circuitry to execute instructions and process data, at least one instruction to generate a system memory access request having a first address pointer; and address translation circuitry to determine whether to translate the first address pointer with or without metadata processing, wherein if the first address pointer is to be translated with metadata processing, the address translation circuitry to: perform a lookup in a memory metadata table to identify a memory metadata value, determine a pointer metadata value associated with the first address pointer, and compare the memory metadata value with the pointer metadata value, the comparison to generate a validation of the memory access request or a fault condition, wherein if the comparison results in a validation of the memory access request, then accessing a set of one or more address translation tables to translate the first address pointer to a first physical address and to return the first physical address responsive to the memory access request.

A queuing requester for access to a memory system is provided. Transaction requests are received from two or more requestors for access to the memory system. Each transaction request includes an associated priority value. A request queue of the received transaction requests is formed in the queuing requester. Each transaction request includes an associated priority value. A highest priority value of all pending transaction requests within the request queue is determined. An elevated priority value is selected when the highest priority value is higher than the priority value of an oldest transaction request in the request queue; otherwise the priority value of the oldest transaction request is selected. The oldest transaction request in the request queue with the selected priority value is then provided to the memory system. An arbitration contest with other requesters for access to the memory system is performed using the selected priority value.

A queuing requester for access to a memory system is provided. Transaction requests are received from two or more requestors for access to the memory system. Each transaction request includes an associated priority value. A request queue of the received transaction requests is formed in the queuing requester. Each transaction request includes an associated priority value. A highest priority value of all pending transaction requests within the request queue is determined. An elevated priority value is selected when the highest priority value is higher than the priority value of an oldest transaction request in the request queue; otherwise the priority value of the oldest transaction request is selected. The oldest transaction request in the request queue with the selected priority value is then provided to the memory system. An arbitration contest with other requesters for access to the memory system is performed using the selected priority value.

A device includes a host including a main memory, and semiconductor memory including a nonvolatile semiconductor memory, memory unit, and controller. The nonvolatile semiconductor memory stores first address information. The memory unit stores second address information as part of the first address information. The controller accesses the nonvolatile semiconductor memory based on the second address information. Third address information is stored in the main memory, and is part or all of the first address information. The controller uses the third address information when accessing the nonvolatile semiconductor memory if address information to be referred is not stored in the second address information.

Systems and methods for memory management for nested virtual machines. An example method may comprise running, by a host computer system, a Level 0 hypervisor managing a Level 1 virtual machine running a Level 1 hypervisor, wherein the Level 1 hypervisor manages a Level 2 virtual machine, wherein the Level 2 virtual machine is associated with a Peripheral Component Interconnect (PCI) device; generating, by the Level 0 hypervisor, a Level 1 page table by combining records from the guest page table with records from a host page table maintained by the Level 0 hypervisor; generating a Level 2 page table comprising a plurality of Level 2 page table entries; and causing a device driver of the Level 2 virtual machine to use the Level 2 page table for second level address translation.

A method and system for sharing memory between a central processing unit (CPU) and a graphics processing unit (GPU) of a computing device are disclosed herein. The method includes allocating a surface within a physical memory and mapping the surface to a plurality of virtual memory addresses within a CPU page table. The method also includes mapping the surface to a plurality of graphics virtual memory addresses within an I/O device page table.

An embodiment of an integrated circuit comprises circuitry to share page tables associated with a page between a processor memory management unit (MMU) and an input/output memory management unit (IOMMU), store a page table entry in the memory associated with the page, and separately control access to the page from a processor and from a direct memory access (DMA) request based on one or more fields of the stored page table entry. Other embodiments are disclosed and claimed.

Embodiments are directed to providing a secure address translation service. An embodiment of a system includes a memory device to store memory data in a plurality of physical pages shared by a plurality of devices, a first table to map each page of memory to an associated bundle identifier (ID) that identifies one or more devices having access to a page of memory, a second table to map each bundle ID to page access permissions that define access to one or more pages associated with a bundle ID and a translation agent to receive requests from the plurality of devices to perform memory operations on the memory and determine page access permissions for requests received from the plurality of devices using the first table and the second table.