CASE STUDIES
State-of-the-Art R&D Center for Fortune 500 Tech Leader
Transformed network infrastructure for enhanced agility and robust security
Operating and maintaining 3 separate and outdated data centers is a task.
The global technology giant - faced the same problem at its Bengaluru headquarters. The company needed a sweeping upgrade across its IT infrastructure, requiring both a migration of its data centers and an overhaul of its network architecture. Siemens wanted to consolidate these into a singular, state-of-the-art facility.
Simultaneously, they wanted to modernize their network architecture to meet growing demands and improve efficiency and security.
The Pains That Come With Dated Infrastructure
Network Infrastructure
Limited Scalability: Traditional network infrastructure was not agile enough to scale with business needs.
Lack of Centralized Control: Managing different network segments was cumbersome due to the absence of centralized control.
Poor Visibility: Inadequate monitoring tools led to late or missed identification of performance bottlenecks or security vulnerabilities.
Performance Bottleneck: The existing network could not keep up with the demands different departments posed.
Data Center Migration
Underutilization: Three separate data centers led to inefficient use of resources.
High Operating Costs: Maintaining multiple facilities led to excessive expenditure.
Compliance: Aging infrastructure raised compliance issues with evolving data security regulations.
The Shortcomings of Legacy Systems
The existing ICT infrastructure at their building was becoming increasingly obsolescent. Manual configurations, patchy security measures, and a lack of real-time asset tracking were hindering their operational efficiency.
Needs & Objectives
After multiple stakeholder interviews and systems audits, we outlined the primary objectives:
Seamless Migration of 35,000 Endpoints
Integration of SDA Fabric
Implement a resilient Data Center (DC) Network and WAN
Introduce a zero-trust security model across all network segments
Is your Legacy ICT System affecting your business? We can guide you through the next steps. Contact us.
Challenges
We joined them as an RFP design consultant. And a set of unique challenges awaited us:
Scale of Migration: Relocating ICT infrastructure for 35,000 endpoints was a colossal task that required meticulous planning and execution.
Design Complexity: The new site was to feature an array of interconnected solutions, from Distribution Switches and Core Switches to Data Center Builds and WAN implementations.
Security Demands: With a multifaceted ecosystem comprising various offices, vendors, and internet users, Siemens required a security solution that went beyond the ordinary to protect its network.
The company also needed three separate networks for different functions - office, R&D, and testing industrial equipment. We also had to install all the necessary applications 50+ departments needed.
Understanding the needs of Siemens resonated with our ethos. We were excited about the transformative potential this project promised.
Encountering Challenges in ICT Migration or Network Security? We have got insights and solutions. Click here.
Comparing Hyper-Converged Infrastructure and Legacy Data Center Architectures
Hyper-converged infrastructure (HCI) significantly departs from legacy systems by consolidating storage, computing, and networking into a single system. It enables centralized management, simplified deployments, and seamless scalability.
The Data Center - Transition to Hyper-Converged Infrastructure
Migrating an entire data center is no trivial task.
Evaluation and Planning
Through meticulous planning, we assessed the current storage needs, computational demands, and traffic patterns. We identified critical applications and designed a phased migration plan to minimize disruptions.
Thinking of evaluating your data center architecture? Learn how we can help.
Implementation Phase
We deployed the HCI solutions and performed data migration in incremental stages. We also installed redundancy and backup procedures to ensure data integrity throughout the migration.
Why Leaf and Spine Architecture?
Traditional three-tier architectures had hit their glass ceiling in scalability and performance. Leaf-and-spine architecture not only eased the vertical scalability concerns but also optimized East-West data flow, delivering unprecedented levels of operational responsiveness.
Implementation & Metrics
No. of Leaf Switches: 50
Core Components: 2 DC Core switches
Backbone Capacity: 100G DC
Every leaf switch connects to each spine switch. The strategy brought down latency to sub-millisecond levels. This configuration also ensured optimal use of the aggregate 100G DC backbone, with near-zero bottlenecks.
Next-Gen Security Solutions
The cybersecurity team armored the perimeter with advanced intrusion detection systems (IDS) and intrusion prevention systems (IPS). Internally, they used Data Loss Prevention (DLP) mechanisms alongside egress and ingress filtering. Zero Trust architecture provided that last layer of rigorous access control, effectively creating a fortress around the critical assets.
The Role of SDN
Through SDN, the data center transitioned from being just a static repository to an agile entity. Network automation achieved through SDN allowed the swift compartmentalization of departments, each with its unique traffic and security requirements.
The Campus Network - Implementing Software-Defined Networking (SDN)
Given the unique needs of campus networks, including high-density Wi-Fi and BYOD policies, we custom-designed an SDN solution that offers centralized control, enhanced security, and scalability.
Why 25G Backbone?
As the network had to support a sprawling 30-storey building, anything less than 25G would have been a disservice. The 25G backbone was not just about speed; it was about future-proofing the network infrastructure, creating a robust pathway that could accommodate the inevitable traffic surges.
Migration of 35,000 Endpoints
The migration was a multi-step process that we executed without any downtime:
Initial Data Backup: All critical data was backed up in real time to a cloud-based storage solution.
Endpoint Tagging: Every endpoint was tagged and monitored in real time, much like the RFID system we deployed for another client.
Traffic Re-routing: Using advanced SD-WAN solutions, we ensured that traffic could be dynamically routed, guaranteeing uninterrupted service during the transition.
To mitigate disruption, the team migrated the endpoints in a phased manner, department by department.
Role of Cisco SDA
Cisco’s Software Defined Access (SDA) acted as the linchpin, translating high-level business policies into network configurations. It ushered in seamless automation and streamlined segmentation policies, essentially acting as the brain behind the brawn.
Serving the Triad: Office, R&D, and Testing
Thanks to SDN, three distinct departments had their networks tailored to the unique demands of the respective departments. The office network prioritized general accessibility and was fortified with basic security measures. The R&D network, on the other hand, was a hotbed for high-compute tasks and was insulated with additional security layers. The testing network was isolated from the other two, allowing for undisturbed, rigorous testing scenarios.
Rollout and Optimization
We set up continuous monitoring tools post-implementation to ensure optimal performance and security. It allowed us to make necessary adjustments based on real-time analytics.
The Aftermath: Transformation Realized
Post-implementation, the benefits were immediately apparent:
Operational Efficiency: Reduced latency and quicker data access significantly improved operational KPIs.
Security: The Zero Trust model instilled a newfound confidence in network interactions, whether internal or external.
Scalability: The new setup is future-ready, capable of incorporating more endpoints or offices as Siemens continues to grow.
Setting A New Benchmark
Our partnership with the tech giant yielded a transformative solution that sets a new benchmark in ICT infrastructure design and migration. The project was not just a technological feat but a paradigm shift in how modern enterprises should approach ICT challenges.
Intrigued? Let’s discuss how we can engineer a similar transformation for you. Click here.
Through advanced solutions and meticulous planning, they now enjoy a state-of-the-art ICT infrastructure that is secure, efficient, and above all, future-ready.
Operating and maintaining 3 separate and outdated data centers is a task.
The global technology giant - faced the same problem at its Bengaluru headquarters. The company needed a sweeping upgrade across its IT infrastructure, requiring both a migration of its data centers and an overhaul of its network architecture. Siemens wanted to consolidate these into a singular, state-of-the-art facility.
Simultaneously, they wanted to modernize their network architecture to meet growing demands and improve efficiency and security.
The Pains That Come With Dated Infrastructure
Network Infrastructure
Limited Scalability: Traditional network infrastructure was not agile enough to scale with business needs.
Lack of Centralized Control: Managing different network segments was cumbersome due to the absence of centralized control.
Poor Visibility: Inadequate monitoring tools led to late or missed identification of performance bottlenecks or security vulnerabilities.
Performance Bottleneck: The existing network could not keep up with the demands different departments posed.
Data Center Migration
Underutilization: Three separate data centers led to inefficient use of resources.
High Operating Costs: Maintaining multiple facilities led to excessive expenditure.
Compliance: Aging infrastructure raised compliance issues with evolving data security regulations.
The Shortcomings of Legacy Systems
The existing ICT infrastructure at their building was becoming increasingly obsolescent. Manual configurations, patchy security measures, and a lack of real-time asset tracking were hindering their operational efficiency.
Needs & Objectives
After multiple stakeholder interviews and systems audits, we outlined the primary objectives:
Seamless Migration of 35,000 Endpoints
Integration of SDA Fabric
Implement a resilient Data Center (DC) Network and WAN
Introduce a zero-trust security model across all network segments
Is your Legacy ICT System affecting your business? We can guide you through the next steps. Contact us.
Challenges
We joined them as an RFP design consultant. And a set of unique challenges awaited us:
Scale of Migration: Relocating ICT infrastructure for 35,000 endpoints was a colossal task that required meticulous planning and execution.
Design Complexity: The new site was to feature an array of interconnected solutions, from Distribution Switches and Core Switches to Data Center Builds and WAN implementations.
Security Demands: With a multifaceted ecosystem comprising various offices, vendors, and internet users, Siemens required a security solution that went beyond the ordinary to protect its network.
The company also needed three separate networks for different functions - office, R&D, and testing industrial equipment. We also had to install all the necessary applications 50+ departments needed.
Understanding the needs of Siemens resonated with our ethos. We were excited about the transformative potential this project promised.
Encountering Challenges in ICT Migration or Network Security? We have got insights and solutions. Click here.
Comparing Hyper-Converged Infrastructure and Legacy Data Center Architectures
Hyper-converged infrastructure (HCI) significantly departs from legacy systems by consolidating storage, computing, and networking into a single system. It enables centralized management, simplified deployments, and seamless scalability.
The Data Center - Transition to Hyper-Converged Infrastructure
Migrating an entire data center is no trivial task.
Evaluation and Planning
Through meticulous planning, we assessed the current storage needs, computational demands, and traffic patterns. We identified critical applications and designed a phased migration plan to minimize disruptions.
Thinking of evaluating your data center architecture? Learn how we can help.
Implementation Phase
We deployed the HCI solutions and performed data migration in incremental stages. We also installed redundancy and backup procedures to ensure data integrity throughout the migration.
Why Leaf and Spine Architecture?
Traditional three-tier architectures had hit their glass ceiling in scalability and performance. Leaf-and-spine architecture not only eased the vertical scalability concerns but also optimized East-West data flow, delivering unprecedented levels of operational responsiveness.
Implementation & Metrics
No. of Leaf Switches: 50
Core Components: 2 DC Core switches
Backbone Capacity: 100G DC
Every leaf switch connects to each spine switch. The strategy brought down latency to sub-millisecond levels. This configuration also ensured optimal use of the aggregate 100G DC backbone, with near-zero bottlenecks.
Next-Gen Security Solutions
The cybersecurity team armored the perimeter with advanced intrusion detection systems (IDS) and intrusion prevention systems (IPS). Internally, they used Data Loss Prevention (DLP) mechanisms alongside egress and ingress filtering. Zero Trust architecture provided that last layer of rigorous access control, effectively creating a fortress around the critical assets.
The Role of SDN
Through SDN, the data center transitioned from being just a static repository to an agile entity. Network automation achieved through SDN allowed the swift compartmentalization of departments, each with its unique traffic and security requirements.
The Campus Network - Implementing Software-Defined Networking (SDN)
Given the unique needs of campus networks, including high-density Wi-Fi and BYOD policies, we custom-designed an SDN solution that offers centralized control, enhanced security, and scalability.
Why 25G Backbone?
As the network had to support a sprawling 30-storey building, anything less than 25G would have been a disservice. The 25G backbone was not just about speed; it was about future-proofing the network infrastructure, creating a robust pathway that could accommodate the inevitable traffic surges.
Migration of 35,000 Endpoints
The migration was a multi-step process that we executed without any downtime:
Initial Data Backup: All critical data was backed up in real time to a cloud-based storage solution.
Endpoint Tagging: Every endpoint was tagged and monitored in real time, much like the RFID system we deployed for another client.
Traffic Re-routing: Using advanced SD-WAN solutions, we ensured that traffic could be dynamically routed, guaranteeing uninterrupted service during the transition.
To mitigate disruption, the team migrated the endpoints in a phased manner, department by department.
Role of Cisco SDA
Cisco’s Software Defined Access (SDA) acted as the linchpin, translating high-level business policies into network configurations. It ushered in seamless automation and streamlined segmentation policies, essentially acting as the brain behind the brawn.
Serving the Triad: Office, R&D, and Testing
Thanks to SDN, three distinct departments had their networks tailored to the unique demands of the respective departments. The office network prioritized general accessibility and was fortified with basic security measures. The R&D network, on the other hand, was a hotbed for high-compute tasks and was insulated with additional security layers. The testing network was isolated from the other two, allowing for undisturbed, rigorous testing scenarios.
Rollout and Optimization
We set up continuous monitoring tools post-implementation to ensure optimal performance and security. It allowed us to make necessary adjustments based on real-time analytics.
The Aftermath: Transformation Realized
Post-implementation, the benefits were immediately apparent:
Operational Efficiency: Reduced latency and quicker data access significantly improved operational KPIs.
Security: The Zero Trust model instilled a newfound confidence in network interactions, whether internal or external.
Scalability: The new setup is future-ready, capable of incorporating more endpoints or offices as Siemens continues to grow.
Setting A New Benchmark
Our partnership with the tech giant yielded a transformative solution that sets a new benchmark in ICT infrastructure design and migration. The project was not just a technological feat but a paradigm shift in how modern enterprises should approach ICT challenges.
Intrigued? Let’s discuss how we can engineer a similar transformation for you. Click here.
Through advanced solutions and meticulous planning, they now enjoy a state-of-the-art ICT infrastructure that is secure, efficient, and above all, future-ready.
Partner with us
Unlock your business potential with our committed team driving your success.
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Transformation starts here, talk to our experts
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Ready to take your company to the next level?
Transformation starts here, talk to our experts
© Copyright 2024 Arche AI Pvt. Ltd.
Ready to take your company to the next level?
Transformation starts here, talk to our experts
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CASE STUDIES
State-of-the-Art R&D Center for Fortune 500 Tech Leader
State-of-the-Art R&D Center for Fortune 500 Tech Leader
Operating and maintaining 3 separate and outdated data centers is a task.
The global technology giant - faced the same problem at its Bengaluru headquarters. The company needed a sweeping upgrade across its IT infrastructure, requiring both a migration of its data centers and an overhaul of its network architecture. Siemens wanted to consolidate these into a singular, state-of-the-art facility.
Simultaneously, they wanted to modernize their network architecture to meet growing demands and improve efficiency and security.
The Pains That Come With Dated Infrastructure
Network Infrastructure
Limited Scalability: Traditional network infrastructure was not agile enough to scale with business needs.
Lack of Centralized Control: Managing different network segments was cumbersome due to the absence of centralized control.
Poor Visibility: Inadequate monitoring tools led to late or missed identification of performance bottlenecks or security vulnerabilities.
Performance Bottleneck: The existing network could not keep up with the demands different departments posed.
Data Center Migration
Underutilization: Three separate data centers led to inefficient use of resources.
High Operating Costs: Maintaining multiple facilities led to excessive expenditure.
Compliance: Aging infrastructure raised compliance issues with evolving data security regulations.
The Shortcomings of Legacy Systems
The existing ICT infrastructure at their building was becoming increasingly obsolescent. Manual configurations, patchy security measures, and a lack of real-time asset tracking were hindering their operational efficiency.
Needs & Objectives
After multiple stakeholder interviews and systems audits, we outlined the primary objectives:
Seamless Migration of 35,000 Endpoints
Integration of SDA Fabric
Implement a resilient Data Center (DC) Network and WAN
Introduce a zero-trust security model across all network segments
Is your Legacy ICT System affecting your business? We can guide you through the next steps. Contact us.
Challenges
We joined them as an RFP design consultant. And a set of unique challenges awaited us:
Scale of Migration: Relocating ICT infrastructure for 35,000 endpoints was a colossal task that required meticulous planning and execution.
Design Complexity: The new site was to feature an array of interconnected solutions, from Distribution Switches and Core Switches to Data Center Builds and WAN implementations.
Security Demands: With a multifaceted ecosystem comprising various offices, vendors, and internet users, Siemens required a security solution that went beyond the ordinary to protect its network.
The company also needed three separate networks for different functions - office, R&D, and testing industrial equipment. We also had to install all the necessary applications 50+ departments needed.
Understanding the needs of Siemens resonated with our ethos. We were excited about the transformative potential this project promised.
Encountering Challenges in ICT Migration or Network Security? We have got insights and solutions. Click here.
Comparing Hyper-Converged Infrastructure and Legacy Data Center Architectures
Hyper-converged infrastructure (HCI) significantly departs from legacy systems by consolidating storage, computing, and networking into a single system. It enables centralized management, simplified deployments, and seamless scalability.
The Data Center - Transition to Hyper-Converged Infrastructure
Migrating an entire data center is no trivial task.
Evaluation and Planning
Through meticulous planning, we assessed the current storage needs, computational demands, and traffic patterns. We identified critical applications and designed a phased migration plan to minimize disruptions.
Thinking of evaluating your data center architecture? Learn how we can help.
Implementation Phase
We deployed the HCI solutions and performed data migration in incremental stages. We also installed redundancy and backup procedures to ensure data integrity throughout the migration.
Why Leaf and Spine Architecture?
Traditional three-tier architectures had hit their glass ceiling in scalability and performance. Leaf-and-spine architecture not only eased the vertical scalability concerns but also optimized East-West data flow, delivering unprecedented levels of operational responsiveness.
Implementation & Metrics
No. of Leaf Switches: 50
Core Components: 2 DC Core switches
Backbone Capacity: 100G DC
Every leaf switch connects to each spine switch. The strategy brought down latency to sub-millisecond levels. This configuration also ensured optimal use of the aggregate 100G DC backbone, with near-zero bottlenecks.
Next-Gen Security Solutions
The cybersecurity team armored the perimeter with advanced intrusion detection systems (IDS) and intrusion prevention systems (IPS). Internally, they used Data Loss Prevention (DLP) mechanisms alongside egress and ingress filtering. Zero Trust architecture provided that last layer of rigorous access control, effectively creating a fortress around the critical assets.
The Role of SDN
Through SDN, the data center transitioned from being just a static repository to an agile entity. Network automation achieved through SDN allowed the swift compartmentalization of departments, each with its unique traffic and security requirements.
The Campus Network - Implementing Software-Defined Networking (SDN)
Given the unique needs of campus networks, including high-density Wi-Fi and BYOD policies, we custom-designed an SDN solution that offers centralized control, enhanced security, and scalability.
Why 25G Backbone?
As the network had to support a sprawling 30-storey building, anything less than 25G would have been a disservice. The 25G backbone was not just about speed; it was about future-proofing the network infrastructure, creating a robust pathway that could accommodate the inevitable traffic surges.
Migration of 35,000 Endpoints
The migration was a multi-step process that we executed without any downtime:
Initial Data Backup: All critical data was backed up in real time to a cloud-based storage solution.
Endpoint Tagging: Every endpoint was tagged and monitored in real time, much like the RFID system we deployed for another client.
Traffic Re-routing: Using advanced SD-WAN solutions, we ensured that traffic could be dynamically routed, guaranteeing uninterrupted service during the transition.
To mitigate disruption, the team migrated the endpoints in a phased manner, department by department.
Role of Cisco SDA
Cisco’s Software Defined Access (SDA) acted as the linchpin, translating high-level business policies into network configurations. It ushered in seamless automation and streamlined segmentation policies, essentially acting as the brain behind the brawn.
Serving the Triad: Office, R&D, and Testing
Thanks to SDN, three distinct departments had their networks tailored to the unique demands of the respective departments. The office network prioritized general accessibility and was fortified with basic security measures. The R&D network, on the other hand, was a hotbed for high-compute tasks and was insulated with additional security layers. The testing network was isolated from the other two, allowing for undisturbed, rigorous testing scenarios.
Rollout and Optimization
We set up continuous monitoring tools post-implementation to ensure optimal performance and security. It allowed us to make necessary adjustments based on real-time analytics.
The Aftermath: Transformation Realized
Post-implementation, the benefits were immediately apparent:
Operational Efficiency: Reduced latency and quicker data access significantly improved operational KPIs.
Security: The Zero Trust model instilled a newfound confidence in network interactions, whether internal or external.
Scalability: The new setup is future-ready, capable of incorporating more endpoints or offices as Siemens continues to grow.
Setting A New Benchmark
Our partnership with the tech giant yielded a transformative solution that sets a new benchmark in ICT infrastructure design and migration. The project was not just a technological feat but a paradigm shift in how modern enterprises should approach ICT challenges.
Intrigued? Let’s discuss how we can engineer a similar transformation for you. Click here.
Through advanced solutions and meticulous planning, they now enjoy a state-of-the-art ICT infrastructure that is secure, efficient, and above all, future-ready.
Partner with us
Unlock your business potential with our committed team driving your success.
© Copyright 2024 Netcon Technologies. All rights reserved. All logos and trademarks used belong to their respective owners.
© Copyright 2024 Netcon Technologies. All rights reserved. All logos and trademarks used belong to their respective owners.