Lasv4 sizes series

The Lasv4-series of Azure Virtual Machines (VMs) features high-throughput, low latency, directly mapped local NVMe storage. These VMs utilize AMD's fourth Generation EPYC™ 9004 processors that can achieve a boosted maximum frequency of 3.7GHz. The Lasv4-series VMs are available in sizes from 2 to 96 vCPUs, with 8 GiB of memory allocated per vCPU and 240GB of local NVMe temp disk capacity allocated per vCPU, with up to 23TB (12x1.92TB) of local temp disk capacity available on the L96as_v4 size.

Lasv4-series VMs are well suited for scale-up or scale-out storage workloads that need a balance of SSD capacity, compute, and memory. These VMs are perfect for big data, relational, NoSQL databases, data analytics, and data warehousing workloads. Examples include Cassandra, MongoDB, Cloudera, Spark, Elastic Search, Redis, and other data-intensive applications.

Lasv4-series VMs support Standard SSD, Standard HDD, and Premium SSD remote disk types. You can also attach Ultra Disk storage based on its regional availability. Remote Disk storage is billed separately from virtual machines. For more information, see pricing for disks.

Host specifications

Part	Quantity Count Units	Specs SKU ID, Performance Units, etc.
Processor	2 - 96 vCPUs	AMD EPYC 9004 (Genoa) [x86-64]
Memory	16 - 768 GiB
Local Storage	1 - 12 Disk	480 - 1920 GB 137500 - 6600000 IOPS 750 - 36000 MBps
Remote Storage	4 - 32 Disks	4000 - 172800 IOPS 90 - 4320 MBps
Network	2 - 8 NICs	12500 - 40000 Mbps
Accelerators	None

Feature support

Premium Storage: Supported
Premium Storage caching: Supported (except for L96as_v4)
Live Migration: Not Supported
Memory Preserving Updates: Supported
Generation 2 VMs: Supported
Generation 1 VMs: Not Supported
Accelerated Networking: Supported
Ephemeral OS Disk: Supported
Nested Virtualization: Supported

Sizes in series

Basics

vCPUs (Qty.) and Memory for each size.

Size Name	vCPUs (Qty.)	Memory (GB)
Standard_L2as_v4	2	16
Standard_L4as_v4	4	32
Standard_L8as_v4	8	64
Standard_L16as_v4	16	128
Standard_L32as_v4	32	256
Standard_L48as_v4	48	384
Standard_L64as_v4	64	512
Standard_L80as_v4	80	640
Standard_L96as_v4	96	768

VM Basics resources

• Check vCPU quotas

Local Storage

Local (temp) storage info for each size.

Size Name	Max Temp Storage Disks (Qty.)	Temp Disk Size (GB)	Temp Disk Random Read1 IOPS	Temp Disk Sequential Read1 Throughput (MB/s)	Temp Disk Random Write1 IOPS	Temp Disk Sequential Write1 Throughput (MB/s)
Standard_L2as_v4	1	480	137500	750	55000	375
Standard_L4as_v4	2	480	275000	1500	110000	750
Standard_L8as_v4	4	480	550000	3000	220000	1500
Standard_L16as_v4	4	960	1100000	6000	440000	3000
Standard_L32as_v4	8	960	2200000	12000	880000	6000
Standard_L48as_v4	6	1920	3300000	18000	1320000	9000
Standard_L64as_v4	8	1920	4400000	24000	1760000	12000
Standard_L80as_v4	10	1920	5500000	30000	2200000	15000
Standard_L96as_v4	12	1920	6600000	36000	2640000	18000

Storage resources

• NVMe Overview
• FAQ for temp NVMe disks

Table definitions

• ¹Temp disk performance depends on many factors including block size, workload patterns of read/writes, queue depth (QD), and others. Temp disk performance specifications should be viewed as best case performance numbers, assuming 4k block sizes and QD=256 for IOPS, and 256k block sizes with QD=64 for throughput. Additionally, write performance is heavily impacted by how many blocks in use on a device. Temp disk write performance specs assume a device has a clean slate to enable the best performance. During steady state operations, write performance is expected to be lower than the published specs.
• For Lasv4, temp disk refers to the NVMe local data disks used by the VM. While Lsv3/Lasv3 have NVMe local data disks and a SCSI local temp disk, Lasv4 only has NVMe local temp disks. There is no SCSI local temp disk on Lasv4.
• Disk throughput is measured in input/output operations per second (IOPS) and MBps where MBps = 10^6 bytes/sec.
• To learn how to get the best local storage performance for your VMs, see the NVMe Temp Disk FAQ.

Remote Storage

Remote (uncached) storage info for each size.

Size Name	Max Remote Storage Disks (Qty.)	Uncached Premium SSD Disk IOPS	Uncached Premium SSD Throughput (MB/s)	Uncached Premium SSD Burst1 IOPS	Uncached Premium SSD Burst1 Throughput (MB/s)	Uncached Ultra Disk and Premium SSD v2 IOPS	Uncached Ultra Disk and Premium SSD v2 Throughput (MB/s)	Uncached Burst1 Ultra Disk and Premium SSD v2 IOPS	Uncached Burst1 Ultra Disk and Premium SSD v2 Disk Throughput (MB/s)
Standard_L2as_v4	4	4000	90	20000	1250	4000	90	20000	1250
Standard_L4as_v4	8	7600	180	20000	1250	7600	180	20000	1250
Standard_L8as_v4	16	15200	360	20000	1250	15200	360	20000	1250
Standard_L16as_v4	32	30400	720	40000	1250	30400	720	40000	1250
Standard_L32as_v4	32	57600	1440	80000	1700	57600	1440	80000	1700
Standard_L48as_v4	32	86400	2160	90000	2550	86400	2160	90000	2550
Standard_L64as_v4	32	115200	2880	120000	3400	115200	2880	120000	3400
Standard_L80as_v4	32	144000	3600	147500	4245	144000	3600	147500	4245
Standard_L96as_v4	32	172800	4320	175000	5090	172800	4320	175000	5090

Storage resources

• Introduction to Azure managed disks
• Azure managed disk types
• Share an Azure managed disk

Table definitions

• ¹Some sizes support bursting to temporarily increase disk performance. Burst speeds can be maintained for up to 30 minutes at a time.
• ²Special Storage refers to either Ultra Disk or Premium SSD v2 storage.
• Storage capacity is shown in units of GiB or 1024^3 bytes. When you compare disks measured in GB (1000^3 bytes) to disks measured in GiB (1024^3) remember that capacity numbers given in GiB may appear smaller. For example, 1023 GiB = 1098.4 GB.
• Disk throughput is measured in input/output operations per second (IOPS) and MBps where MBps = 10^6 bytes/sec.
• Data disks can operate in cached or uncached modes. For cached data disk operation, the host cache mode is set to ReadOnly or ReadWrite. For uncached data disk operation, the host cache mode is set to None.
• To learn how to get the best storage performance for your VMs, see Virtual machine and disk performance.

Network

Network interface info for each size.

Size Name	Max NICs (Qty.)	Max Network Bandwidth (Mb/s)
Standard_L2as_v4	2	12500
Standard_L4as_v4	2	12500
Standard_L8as_v4	4	12500
Standard_L16as_v4	8	12500
Standard_L32as_v4	8	16000
Standard_L48as_v4	8	28000
Standard_L64as_v4	8	36000
Standard_L80as_v4	8	40000
Standard_L96as_v4	8	40000

Networking resources

• Virtual networks and virtual machines in Azure
• Virtual machine network bandwidth

Table definitions

• Expected network bandwidth is the maximum aggregated bandwidth allocated per VM type across all NICs, for all destinations. For more information, see Virtual machine network bandwidth
• Upper limits aren't guaranteed. Limits offer guidance for selecting the right VM type for the intended application. Actual network performance will depend on several factors including network congestion, application loads, and network settings. For information on optimizing network throughput, see Optimize network throughput for Azure virtual machines.
• To achieve the expected network performance on Linux or Windows, you may need to select a specific version or optimize your VM. For more information, see Bandwidth/Throughput testing (NTTTCP).

Accelerators

Accelerator (GPUs, FPGAs, etc.) info for each size.

Note

No accelerators are present in this series.

Note

This VM series will only work on OS images that support NVMe. If your current OS image doesn't have NVMe support, you’ll see an error message. NVMe support is available on the most popular OS images, and we're continuously improving OS image compatibility.

Other size information

List of all available sizes: Sizes

Pricing Calculator: Pricing Calculator

Information on Disk Types: Disk Types

Next steps

Take advantage of the latest performance and features available for your workloads by changing the size of a virtual machine.

Utilize Microsoft's in-house designed ARM processors with Azure Cobalt VMs.

Learn how to Monitor Azure virtual machines.