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Compute Capacity Limits by Edition of SQL Server

This topic discusses compute capacity limits for different editions of SQL Server 2012 and how they differ in physical and virtualized environments with hyperthreaded processors.

Mappings to compute capacity limits

The following table describes the notations being used in the above diagram:

Value

Description

0..1

Zero or one

1

Exactly one

1..*

One or more

0..*

Zero or more

1..2

One or two

Important note Important

To elaborate further:

  1. A virtual machine is allocated one or more virtual processors.

  2. One or more virtual processors are allocated to exactly one virtual machine.

  3. Zero or one virtual processor is mapped to zero or more logical processors. When the virtual processor to logical processor mapping is:

    • One-to-zero, it represents an unbound logical processor not used by the guest operating systems.

    • One-to-many, it represents an overcommit.

    • Zero-to-many, it represents the absence of virtual machine on the host system, so no logical processors are used by VMs.

  4. A socket is mapped to zero or more cores. When the socket to core mapping is:

    • One-to-zero, it represents an empty socket (no chip installed).

    • One-to-one, it represents a single-core chip installed into the socket (very rare these days).

    • One-to-many, it represents a multi-core ship installed into the socket (typical values are 2,4,8).

  5. A core is mapped to one or two logical processors. When the core to logical processor mapping is:

    • One-to-one, hyperthreading is off.

    • One-to-two, hyperthreading is on.

The following definitions apply to the terms used throughout this topic:

  • A thread or logical processor is one logical computing engine from the perspective of SQL Server, the operating system, an application or driver.

  • A core is a processor unit, which can consist of one or more logical processors.

  • A physical processor can consist of one or more cores. A physical processor is the same as a processor package, or a socket.

Systems with more than one physical processor or systems with physical processors that have multiple cores and/or hyperthreads enable the operating system to execute multiple tasks simultaneously. Each thread of execution appears as a logical processor. For example, if you have a computer that has two quad-core processors with hyper-threading enabled and two threads per core, you have 16 logical processors: 2 processors x 4 cores per processor x 2 threads per core. It is worth noting that:

  • The compute capacity of a logical processor from a single thread of a hyperthreaded core is less than the compute capacity of a logical processor from that same core with hyperthreading disabled.

  • But the compute capacity of the 2 logical processors in the hyperthreaded core is greater than the compute capacity of the same core with hyperthreading disabled.

Starting with SQL Server 2012, each edition of SQL Server has two compute capacity limits:

  1. A maximum number of Sockets (Same as Physical processor or Socket or Processor package).

  2. A maximum number of cores as reported by the operating system.

These limits apply to a single instance of SQL Server. They represent the maximum compute capacity that a single instance will use. They do not constrain the server upon which the instance may be deployed. In fact deploying multiple instances of SQL Server on the same physical server is an efficient way to use the compute capacity of a physical server with more sockets and/or cores than the capacity limits below.

The following table specifies the compute capacity limits for a single instance of each edition of SQL Server 2012:

SQL Server Edition

Maximum Compute Capacity Used by a Single Instance (SQL Server Database Engine)

Maximum Compute Capacity Used by a Single Instance (AS, RS)

Enterprise Edition: Core-based Licensing1

Operating system maximum

Operating system maximum

Developer

Operating system maximum

Operating system maximum

Evaluation

Operating system maximum

Operating system maximum

Business Intelligence

Limited to lesser of 4 Sockets or 16 cores

Operating system maximum

Standard

Limited to lesser of 4 Sockets or 16 cores

Limited to lesser of 4 Sockets or 16 cores

Web

Limited to lesser of 4 Sockets or 16 cores

Limited to lesser of 4 Sockets or 16 cores

Express

Limited to lesser of 1 Socket or 4 cores

Limited to lesser of 1 Socket or 4 cores

Express with Tools

Limited to lesser of 1 Socket or 4 cores

Limited to lesser of 1 Socket or 4 cores

Express with Advanced Services

Limited to lesser of 1 Socket or 4 cores

Limited to lesser of 1 Socket or 4 cores

1 Enterprise Edition with Server + Client Access License (CAL) based licensing (not available for new agreements) is limited to a maximum of 20 cores per SQL Server instance. There are no limits under the Core-based Server Licensing model.

In a virtualized environment, the compute capacity limit is based on the number of logical processors – not cores, because the processor architecture is not visible to the guest applications. For example, a server with four sockets populated with quad-core processors and the ability to enable two hyperthreads per core contains 32 logical processors with hyperthreading enabled but only 16 logical processors with hyperthreading disabled. These logical processors can be mapped to virtual machines on the server with the virtual machines’ compute load on that logical processor mapped into a thread of execution on the physical processor in the host server.

You may want to disable hyperthreading when the performance per virtual processor is important. One can enable or disable hyperthreading using a BIOS setting for the processor during the BIOS setup, but it is typically a server scoped operation that will impact all workloads running on the server. This may suggest separating workloads that will run in virtualized environments from those that would benefit from the hyperthreading performance boost in a physical operating system environment.

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