Juniper Apstra Datasheet

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Product Overview

Juniper Apstra, a turnkey, multivendor automation solution, allows customers to design, build, deploy, and operate data center networks from a single pane of glass, simplifying and automating data center operations.

Apstra provides:

— a singular view into the relationships and interdependencies between millions of data center elements

— continuous real-time validation that enables you to instantly pinpoint and quickly resolve issues across all infrastructure silos

— a complete fabric management solution, regardless of vendor, for single vendor and multivendor environments

 

Product Description

In this era of unprecedented change, people have changed how they work, live, and play. Digital transformation is underway everywhere, and data center traffic has increased at a rapid pace. To ensure business success, you need to adapt quickly to the changes coming all around you. To achieve that, Juniper® Apstra software transforms your data center network operations by providing simplicity, reliability, and multivendor support.

Juniper Apstra is a software-only, multivendor, intent-based networking solution that provides closed-loop automation and assurance to provide a complete fabric management solution.

Apstra translates business intent and technical objectives to essential policy and device-specific configuration, and it continuously self-validates and resolves issues to assure compliance. You specify the “what” (network topology, VLANs, desired capacity, redundancy requirements, access rules, and more), and Apstra delivers the “how.”

The Apstra software is installed as one or a set of virtual machines (VMs) to connect and manage devices via agents installed on or off the devices.

You can design your rack types and fabric network using Apstra templates. Details such as single/dual-homing of servers, collapsed/3-stage/5-stage style of fabric, Ethernet  VPN (EVPN)/IP fabric, and IPv4/IPv6 underlay can be specified as part of the template type and options. Once the fabric template is completed, it can be instantiated into blueprints, each representing an actual physical network. The allocation of the managed devices and network resources (“build phase”) is done within the blueprints. As the blueprint is built, Apstra automatically produces the necessary configuration for devices, providing an abstraction layer across vendors. Apstra provides continuous validation against intent and policy assurance, and it identifies configuration drift in real time, confirming that security policies are enforced as intended. Once the user commits the changes, the incremental configuration is pushed to the Juniper, Cisco, Arista, or Dell-EMC devices.

Apstra manages the entire network life cycle, giving you the ability to easily expand and scale your network, as well as extract meaningful device telemetry. Apstra keeps your intent in check with the actual status of the network, providing you with actionable insights into your network to ensure that your goals are met.

 

Features and Benefits

Apstra offers the following features:

Intent-Based Network Design and Operations

Intent-based data center automation increases application availability and reliability, simplifies deployment and operations, and dramatically reduces costs for enterprises, cloud service providers, and telco data centers. As the only intent-based networking technology to be hardware- and device OS-vendor agnostic, Apstra delivers on the vision of complete end-to-end data center automation, integrating capabilities such as group-based policies, enterprise scale, and significant intent-based analytics enhancements.

 

Life-Cycle Management for Data Center Networks

Typically, architects design the network and operators manage it, resulting in a breakdown in information sharing and the absence of a single source of truth (SSOT). Architects are not aware of changes made to the network, and operators are not fully informed of the capabilities and known limits of the system. Apstra eliminates these issues by creating an SSOT in the intent datastore and tracking all network moves, additions, and changes. Not only does Apstra track changes made to the network by other systems, but it also provides simple workflows for implementing changes across the entire network.

 

Advanced Telemetry—Intent-Based Analytics

Operators frequently find themselves drowning in telemetry data collected by their managed systems. Apstra’s intent-based analytics let you define expert-level rules and embed them into the network management system, ensuring that system checks are continuously running and updated immediately with any network changes.

 

Scalability in Small and Large Data Centers

Apstra was designed to handle the largest data centers in the world, supporting hundreds of thousands of connected servers. This is achieved through support for 3-stage or 5-stage Clos IP fabrics with EVPN-Virtual Extensible LAN (VXLAN) deployed as the overlay. Apstra also supports smaller fabric designs. In edge data centers, for example, only a couple of switches are deployed, but the number of deployments is large and highly distributed. Apstra can easily consolidate all operations across the edge data centers into a single management interface. 

Regardless of the number and scale of deployments, is focused on intent and on translating that intent to configuration. Operators can easily make changes to these roles, driving large-scale changes to configurations across multiple vendors and network designs. To satisfy these demands, Apstra is built with a high-throughput, highly scalable graph datastore that tracks all changes in real time, relieving the organization from having to manage individual IP addresses or configurations. This allows operators to focus on business-specific needs rather than low-level troubleshooting or reconfiguring of the network management system following every network change.

 

Support for All Network Designs

Apstra solves the deployment and operational complexity of next-generation data center networks by providing easy-to-deploy and highly validated fabric reference designs that can be used for any network size and cover  multiple use cases. However, some data centers may require specific or out-of-the-box topologies, protocols, or architectures that are not addressed by these templates. 

Apstra’s  “freeform reference design” allows you to build the design you want, how you want it. You can leverage any feature, protocol, or architecture that fits your deployment scenario. Freeform presents an interactive canvas to visually design or model any arbitrary network topology. The configuration is administered via Configuration Templates that grant you complete control over the configuration on the devices. 

You can still leverage the same simple and powerful life-cycle management features from device operating system upgrades, simple device deployments, pre-deployment data center modeling, device telemetry, analytics dashboards, to powerful Intent-Based Analytics and Intent Time Voyager.

 

Intent Time Voyager

A key operational feature for any network operator is rapidly recovering from human error. This is typically a complex, vendor-specific process that requires a complete understanding of the full state of all boxes and their relationships to each other at certain points in time. The Intent Time Voyager feature speeds time to resolution by enabling the operator to move the entire state of the network (intent, configuration, and continuous validations) backward or forward with a few simple clicks, returning it to a specific point in time. This unique ability is enabled by its foundational intent-based approach, including its SSOT and assurance validations.

 

Data Center Interconnect

As networks expand and applications require greater geographic diversity, several vendor-specific proprietary features have been introduced to address stretched Layer 2 domains and active/active topologies. Apstra supports an industry-standard EVPN-VXLAN overlay that extends Layer 2 application segments outside of the Apstra-managed topology. This allows architects to integrate multiple disparate computing centers for effective load balancing, legacy migration, disaster recovery, or resource sharing.

 

Access List Policies Assurance

Apstra security policy provides a simple user interface and API that allows users to define policies to control the flow of traffic between virtual networks, IP endpoints, and routing zones. The policy is automatically applied as an L3 ACL on the relevant enforcement points, radically simplifying the management and reducing the size of access control lists. Furthermore, Apstra can detect conflicts when multiple policies are applied within a blueprint overlap and automatically resolve the conflicts based on user settings such as “more specific first“ or “more generic first“. Users can search existing policies based on source/destination object and by type of traffic (protocol and port number) to determine if a certain traffic flow is affected by any active policies.

 

Support for All Modern Network Platforms

Apstra offers the industry’s first and only vendor-agnostic intent-based networking platform, allowing enterprises to design a network without consideration for the hardware platforms that will eventually be deployed. The tools used to design and manage the network are the same, regardless of which vendor hardware or network operating system is ultimately selected. This translates to a massive reduction in OpEx by eliminating the need to maintain staff expertise in multiple platforms and vendor nuances. There is also an opportunity to reduce CapEx by allowing all modern vendors to be considered for inclusion in an Apstra-managed environment.

 

Flow Data

Apstra Flow, a multivendor network observability solution for modern data centers, delivers unprecedented insights at any scale for network performance, availability, and security. Apstra Flow provides complete network visibility and in-depth analysis of traffic patterns so administrators can pinpoint the cause of a problem and resolve the issues. Having this extensive visibility optimizes network performance, enhances security, and improves capacity planning and cost control.

Apstra Flow provides granular information about network traffic flows, including source and destination IP addresses, ports, protocols, and the amount of data transmitted. When network administrators have this information, they can better understand the network's performance and identify potential issues such as congestion, high latency, or packet loss.

Network engineers can leverage the insights from Apstra Flow to implement strategies that optimize network traffic flow, reducing latency, balancing loads across network paths, and ensuring the most efficient use of available resources.

Apstra Flow’s ability to enrich multivendor network traffic with organization-specific information enables more in-depth analysis and a better understanding of network traffic patterns, resource usage, and security risks. Apstra Flow, helps organizations improve their security posture; detect and respond to threats more effectively; and maintain compliance with regulatory requirements.

 

VMware Integrations

Apstra tightly integrates with VMware NSX-T and VMware vCenter to provide network operators visibility into virtual workloads and networks. The built-in validation speeds up the troubleshooting of virtual networking, port-group/fabric VLAN/Link Aggregation Control Protocol (LACP) mismatch, and VM traffic issues. Remediation workflows help users resolve misconfiguration of VLANs faster by automatically suggesting the correct network fabric changes.

 

Flexible Fabric Design and Connectivity

Apstra software offers flexible connectivity configuration options for servers, firewalls, and external routers. These connectivity options can be quickly attached to any port in the fabric, with deterministic configuration to ensure that all protocols are properly functioning. Apstra also supports complete flexibility in the fabric design via a “Freeform” template, to manage less conventional and/or legacy architectures.

Table 1: Features by Tier
FeatureStandardAdvancedPremiumConnector for VMware
Network Design
3-stage and 5-stage Clos designXXX 
Collapsed fabric design (Edge data centers) XXX 
3-stage Clos with L2 access switches XXX 
High Availability switches at the access layer XXX 
Freeform design (any network design)XXX 
IPv4 fabric (non-EVPN) XXX 
IPv6 fabric RFC-5549 (non-EVPN) XXX 
EVPN fabric XXX 
Virtual routing and forwarding tables (VRFs) XXX 
L2/L3 virtual networks (IPv4/IPv6) XXX 
Intra-rack (VLAN), or inter-rack (VXLAN) virtual networks XXX 
Single or dual homing of external systems (MLAG/vPC/CLAG/ ESI) XXX 
L3 sub-interfaces XXX 
Dynamic Host Configuration Protocol (DHCP) relay XXX 
External BGP peering XXX 
Dynamic BGP neighbors XXX 
Granular import/export routing policies XXX 
Static routes XXX 
Remote EVPN gateways for L2/L3 Data Center Interconnect (DCI)  XX 
Integrated Interconnect/VXLAN Stitching (DCI) XX 
Mixed vendor fabrics (i.e. Fabrics with non-Juniper devices)  X 
Device OS
Junos® operating system and vJunos-switchXXX 
Junos OS Evolved and vJunosEvolvedXXX 
Cisco NX-OS and NX-OSv   X 
Arista EOS and vEOS   X 
Enterprise SONiC   X 
Telemetry Services
Address Resolution Protocol (ARP) table XXX 
Media access control (MAC) table XXX 
BGP session XXX 
Hostname XXX 
Interface and interface counters XXX 
Transceiver information XXX 
Link aggregation group/multichassis link aggregation group (LAG/MLAG) information XXX 
Link Layer Discovery Protocol (LLDP) information XXX 
Resource utilization (disk, memory, CPU)XXX 
Device Environmental Health (power supply, fan temperature, etc))XXX 
Telemetry services healthXXX 
Custom Telemetry Collector (any additional telemetry) XX 
IP Route table XXX 
Active configuration XXX 
EVPN flooding table  XX 
EVPN routing table XX 
Flow data (sFlow, NetFlow, IPFIX, and IFA)  X 
Intent-Based Analytics (IBA) 
Custom dashboards and widgets XXX 
Programmable ProbesXXX 
Tags and property sets for custom probes XXX 
Device system health and environmental checksXXX 
Device traffic and headroom XXX 
LAG imbalance XXX 
MLAG imbalance*XXX 
ESI imbalance* XXX 
Equal-cost multipath (ECMP) imbalance for fabric interfacesXXX 
Telemetry streaming via protocol buffers* XX 
IBA predefined probes* XX 
Bandwidth utilization  XX 
Critical services: utilization, trending, alerting* XX 
Leafs Hosting Critical Services: utilization, trending, alerting* XX 
Drain traffic anomaly XX 
Equal-cost multipath (ECMP) imbalance for spine to super spine interfaces* XX 
Equal-cost multipath (ECMP) imbalance for external interfaces XX 
Spine fault tolerance* XX 
EVPN-VXLAN type-3 route validation* XX 
EVPN-VXLAN type-5 route validation* XX 
VXLAN flood list validation* XX 
EVPN host flaps detection* XX 
BGP flapping detection  XX 
Hot/cold fabric ports  XX 
Hot/cold spine to super spine* XX 
Hot/cold specific interfaces XX 
Packet discard XX 
Interface flapping  XX 
Total east-west traffic* XX 
Optical transceivers XX 
Display external routes* XX 
Connectivity fault model* XX 
Cabling fault model* XX 
Extensible telemetry collection*  X 
Multi-agent detector (Arista only)*  X 
Hypervisor and fabric VLAN configuration mismatch*   X
VMs without fabric configured VLANs*   X
Hypervisor and fabric LAG configuration mismatch*   X
Hypervisor missing LLDP configuration*    X
Hypervisor maximum transmission unit (MTU) mismatch*   X
Hypervisor MTU check*   X
Hypervisor redundancy check*   X
Platform
Apstra server backup/restore XXX 
Apstra server health reporting XXX 
Apstra sever upgradesXXX 
RESTful APIs XXX 
API User Guides and API ExplorerXXX 
Graph model and GraphQL/QE API XXX 
Apstra CLI XXX 
Apstra Developer SDK (Python) XXX 
Extensible on-box or off-box device agents XXX 
Multiuser administration XXX 
Role-based access control XXX 
Self-integrity checkXXX 
Security
Multiuser administration XXX 
Role-based access control XXX 
LDAP authentication XXX 
TACACS+ authentication XXX 
RADIUS authentication XXX 
Active Directory authentication XXX 
HTTPS UI XXX 
Apstra server security hardening XXX 
API driven operationXXX 
Blueprint Customization
Template types and options XXX 
Connectivity templates XXX 
Configlets with granular scope (ex: interface level)XXX 
Config templates (Freeform only)XXX 
Property sets XXX 
Tags management XXX 
Resource pool management XXX 
Day-2 rack modifications XXX 
Day-2 fabric extension XXX 
Day-2 Operations
Staged/commit workflows XXX 
Rollback network state (Intent Time Voyager) XXX 
Add/remove generic systems XXX 
Add/update/remove racks XXX 
Add/remove pods XXX 
Network OS upgrade/downgrade XXX 
Change/add interface XXX 
Turning interface up/downXXX 
Break/form lags XXX 
Device maintenance XXX 
Device decommissioning XXX 
Device replacement XXX 
Resource utilization XXX 
Virtual network management with bulk operationsXXX 
Policy Assurance
Configuration drift detection XXX 
Routing Zone constraint policies XXX 
Access list policies—conflict detection and resolution   X 
802.1x Network Admission Control   X 
Traffic control with ACLs   X 
Policies management   X 
Cabling map: anti-affinity policies   X 
Security policy (firewall filters/access control lists)   X 
Device Management
Universal zero-touch provisioning (ZTP) with Graphical User InterfaceXXX 
Device agent installer XXX 
Life-cycle management XXX 
Device quarantine XXX 
Device maintenance XXX 
Virtual Infrastructure Integration
VMware vCenter   X
VMware NSX-T   X

 

*Probes marked are not available in Freeform design

 

Ordering Information

Please contact your Juniper sales representative for information on ordering Juniper Apstra. 

 

About Juniper Networks

At Juniper Networks, we are dedicated to dramatically simplifying network operations and driving superior experiences for end-users. Our solutions deliver industry-leading insight, automation, security, and assurance to drive real business results. We believe that powering connections will bring us closer together while empowering us all to solve the world’s greatest challenges of well-being, sustainability, and equality.

 

1000699 - 010 - EN JANUARY 2024