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System Requirements

 

These topics provide system requirements for each supported environment.

Minimum Hardware and Software Requirements for KVM

Table 1 lists the hardware requirements.

Table 1: Minimum Hardware Requirements for KVM

Description

Value

Sample system configuration

For lab simulation and low performance (less than 100 Mbps) use cases, any x86 processor (Intel or AMD) with VT-d capability.

For all other use cases, Intel Ivy Bridge processors or later are required.

Example of Ivy Bridge processor: Intel Xeon E5-2667 v2 @ 3.30 GHz 25 MB Cache

For single root I/O virtualization (SR-IOV) NIC type, use Intel 82599-based PCI-Express cards (10 Gbps) and Ivy Bridge processors.

Number of cores

Note: Performance mode is the default mode and the minimum value is based on one port.

The exact number of vCPUs needed differs depending on the Junos OS features that are configured and other factors, such as average packet size. You can contact Juniper Networks Technical Assistance Center (JTAC) for validation of your configuration and make sure to test the full configuration under load before use in production. For typical configurations, we recommend the formula to calculate the minimum vCPUs needed by the VFP.

To calculate the optimal number of vCPUs needed by VFP for performance mode:

To calculate the optimal number of vCPUs needed by VFP for performance mode:

  • Without CoS—(4 * number-of-ports) + 4

  • With CoS—(5 * number-of-ports) + 4

All VFP vCPUs must be in the same physical non-uniform memory access (NUMA) node for optimal performance. In addition to vCPUs for the VFP, we recommend 2 x vCPUs for VCP and 2 x vCPUs for Host OS on any server running the vMX.

For lab simulation use case applications (lite mode): Minimum of 4

  • 1 for VCP

  • 3 for VFP

For low-bandwidth (virtio) or high-bandwidth (SR-IOV) applications (performance mode): Minimum of 9

  • 1 for VCP

  • 8 for VFP

Memory

Note: Performance mode is the default mode.

For lab simulation use case applications (lite mode): Minimum of 5 GB

  • 1 GB for VCP

  • 4 GB for VFP

For low-bandwidth or high-bandwidth applications (performance mode): Minimum of 16 GB

  • 4 GB for VCP

  • 12 GB for VFP

Additional 2 GB recommended for host OS

Storage

Local or NAS

Other requirements

Intel VT-d capability

Hyperthreading (recommended)

AES-NI

Table 2 lists the software requirements for Ubuntu.

Table 2: Software Requirements for Ubuntu

Description

Value

Operating system

Ubuntu 14.04.1 LTS (recommended host OS)

Linux 3.13.0-32-generic

Virtualization

QEMU-KVM 2.0.0+dfsg-2ubuntu1.11

Required packages

Note: Other additional packages might be required to satisfy all dependencies.

bridge-utils qemu-kvm libvirt-bin python python-netifaces vnc4server libyaml-dev python-yaml numactl libparted0-dev libpciaccess-dev libnuma-dev libyajl-dev libxml2-dev libglib2.0-dev libnl-dev python-pip python-dev libxml2-dev libxslt-dev

Note: libvirt 1.2.19

Table 3 lists the software requirements for Red Hat Enterprise Linux.

Table 3: Software Requirements for Red Hat Enterprise Linux

Description

Value

Operating system

Red Hat Enterprise Linux 7.2

Linux 3.10.0-327.4.5

Virtualization

QEMU-KVM 1.5.3

Required packages

Note: SR-IOV requires these packages: kernel-devel gcc

python27-python-pip python27-python-devel numactl-libs libpciaccess-devel parted-devel yajl-devel libxml2-devel glib2-devel libnl-devel libxslt-devel libyaml-devel numactl-devel redhat-lsb kmod-ixgbe libvirt-daemon-kvm numactl telnet net-tools

Note: libvirt 1.2.17 or later

Table 4 lists the software requirements for CentOS.

Table 4: Software Requirements for CentOS

Description

Value

Operating system

CentOS 7.2

Linux 3.10.0-327.22.2

Virtualization

QEMU-KVM 1.5.3

Required packages

python27-python-pip python27-python-devel numactl-libs libpciaccess-devel parted-devel yajl-devel libxml2-devel glib2-devel libnl-devel libxslt-devel libyaml-devel numactl-devel redhat-lsb kmod-ixgbe libvirt-daemon-kvm numactl telnet net-tools

Note: libvirt 1.2.19

To avoid any conflicts, install libvirt 1.2.19 instead of updating from libvirt 1.2.17.

Minimum Hardware and Software Requirements for VMware

Table 5 lists the hardware requirements.

Table 5: Minimum Hardware Requirements for VMware

Description

Value

Number of cores

Note: To calculate the optimal number of vCPUs needed by VFP for performance mode:

  • Without CoS—(4 * number-of-ports) + 4

  • With CoS—(5 * number-of-ports) + 4

Note: The exact number of vCPUs needed differs depending on the Junos OS features that are configured and other factors, such as average packet size. You can contact Juniper Networks Technical Assistance Center (JTAC) for validation of your configuration and make sure to test the full configuration under load before use in production. For typical configurations, we recommend the following formula to calculate the minimum vCPUs needed by the VFP.

Note: All VFP vCPUs must be in the same physical non-uniform memory access (NUMA) node for optimal performance. In addition to vCPUs for the VFP, we recommend 2 x vCPUs for VCP and 2 x vCPUs for Host OS on any server running the vMX.

For performance mode: Minimum of 9

  • 1 for VCP

  • 7 for VFP

For lite mode: Minimum of 4

  • 1 for VCP

  • 3 for VFP

Memory

Note: Performance mode is the default mode.

For performance mode: Minimum of 16 GB

  • 4 GB for VCP

  • 12 GB for VFP

For lite mode: Minimum of 10

  • 2 GB for VCP

  • 8 GB for VFP

Storage

Local or NAS

Table 6 lists the software requirements.

Table 6: Software Requirements for VMware

Description

Value

Hypervisor

ESXi 5.5 Update 2

Management Client

vSphere 5.5 or vCenter Server