Client background

NetScalers decommissioning challenges

Unprecedented scale and complexity

The customer had the third-largest NetScaler footprint globally, but the most configuration complexity of any deployment worldwide. Multiple business units maintained distinct environments, change processes, and dependencies.

The customer had the third-largest NetScaler footprint globally, but the most configuration complexity of any deployment worldwide. Multiple business units maintained distinct environments, change processes, and dependencies.

The customer had the third-largest NetScaler footprint globally, but the most configuration complexity of any deployment worldwide. Multiple business units maintained distinct environments, change processes, and dependencies.

Security gaps cause policy violations and risk

High-volume, high-stakes traffic

Each migration affected terabits of live production traffic. Even a minor misconfiguration could cause visible impact across global services and impact hundreds of millions of users.

Each migration affected terabits of live production traffic. Even a minor misconfiguration could cause visible impact across global services and impact hundreds of millions of users.

Each migration affected terabits of live production traffic. Even a minor misconfiguration could cause visible impact across global services and impact hundreds of millions of users.

Security gaps cause policy violations and risk

Tight global deadline

The program required end-to-end migration, from initial audit to hardware decommissioning, within just nine months, across distributed teams and data centers in the U.S. and China.

The program required end-to-end migration, from initial audit to hardware decommissioning, within just nine months, across distributed teams and data centers in the U.S. and China.

The program required end-to-end migration, from initial audit to hardware decommissioning, within just nine months, across distributed teams and data centers in the U.S. and China.

Security gaps cause policy violations and risk

NetScaler migration process

OpsWerks embedded engineers directly with internal teams to lead a phased, automation-driven NetScaler migration with zero unplanned downtime.

OpsWerks embedded engineers directly with internal teams to lead a phased, automation-driven NetScaler migration with zero unplanned downtime.

Phase 1: Audit and Classification

Audited ~9,300 VIPs across U.S. and China environments (from dev to production) across multiple business units.

Audited ~9,300 VIPs across U.S. and China environments (from dev to production) across multiple business units.

Analyzed 60–90 days of live traffic to identify active vs. inactive VIPs for migration or decommissioning.

Analyzed 60–90 days of live traffic to identify active vs. inactive VIPs for migration or decommissioning.

Developed automation scripts for VIP/device inventory auditing, bulk connectivity testing, and burn-down reporting, saving hundreds of hours and reducing manual errors.

Developed automation scripts for VIP/device inventory auditing, bulk connectivity testing, and burn-down reporting, saving hundreds of hours and reducing manual errors.

Coordinated ownership validation across dozens of internal service teams.

Coordinated ownership validation across dozens of internal service teams.

Phase 2: Configuration and Cutover

Built equivalent configurations on the new load balancer and validated parity in QA, performance, and pre-prod before production rollout.

Built equivalent configurations on the new load balancer and validated parity in QA, performance, and pre-prod before production rollout.

Executed controlled traffic cutovers during maintenance windows with continuous monitoring.

Executed controlled traffic cutovers during maintenance windows with continuous monitoring.

Introduced a “logical decommissioning” process disabling interfaces before final shutdown to enable instant rollback if needed.

Introduced a “logical decommissioning” process disabling interfaces before final shutdown to enable instant rollback if needed.

Extended OpsWerks’ scope to full production NetScaler migration after proving stability in early phases.

Extended OpsWerks’ scope to full production NetScaler migration after proving stability in early phases.

Created dashboards for live traffic visibility, enabling teams to track migration progress and system behavior.

Created dashboards for live traffic visibility, enabling teams to track migration progress and system behavior.

Phase 3: Decommissioning and Standardization

Monitored live traffic post-cutover to confirm stable operations.

Monitored live traffic post-cutover to confirm stable operations.

With local data center teams coordinated safe decommission of 1,600+ physical NetScaler appliances after validation.

With local data center teams coordinated safe decommission of 1,600+ physical NetScaler appliances after validation.

Updated and standardized technical runbooks, tribal knowledge, and monitoring documentation for repeatable operations.

Updated and standardized technical runbooks, tribal knowledge, and monitoring documentation for repeatable operations.

The Challenge

Scope of Work

The OpsWerks Advantage

Results

Facing similar

Challenges?

Facing similar

Challenges?

Contact our Partner Success Team at partnerwithus@opswerks.com to see how we can help.

Contact our Partner Success Team at partnerwithus@opswerks.com to see how we can help.

About OpsWerks

About OpsWerks

OpsWerks is a trusted partner to some of the world's most elite platform and infrastructure engineering teams, helping them operate at scale.

We streamline hybrid cloud operations, execute complex migrations without downtime, and enable developers to quickly build and deploy global apps used by millions.

From managing CI/CD ecosystems and building orchestration tools to 24/7 support for business-critical systems, for over a decade we’ve kept developers focused on building.