Cloud Archives - Page 2 of 5

Introduction

Automotive enterprises operate complex IT environments across datacenters, SAP, MES, and enterprise applications. High volumes of manually logged incidents, false alerts, and delayed resolution impact operational efficiency and system reliability. This case study highlights how an automotive leader transformed its IT operations using predictive self-healing and automation. By enabling event correlation, alert suppression, and automated resolution, the organization significantly reduced manual intervention, improved system stability, and enhanced operational efficiency.

Customer

A leading automotive enterprise managing large-scale datacenter operations, enterprise applications, and manufacturing systems across global operations.

Business Objective

Reduce manual ticket logging and operational overhead
Minimize false alerts and improve monitoring accuracy
Reduce P1/P2 incidents impacting critical systems
Enable predictive and automated incident resolution
Improve IT operations efficiency and reliability

Scope of Services

Datacenter and IT incident pattern analysis
Event correlation and alert suppression design
Automation of service requests and incident resolution
Predictive monitoring across SAP, MES, and infrastructure
Self-healing workflow enablement across IT environments

Key Insights from Analysis

51%+ issues logged manually → major inefficiency
False positives increased up to 19%
P1/P2 incidents driven by:
- SAP security issues
- MES engine failures
- SAP HCM downtime
- Backup failures
Automation potential identified across service requests and incidents

Detailed Findings

High dependency on manual incident logging and handling
Lack of effective alert correlation leading to noise
Inefficient prioritization causing delays in critical incidents
High recurrence of issues across SAP, MES, and infrastructure
Significant automation gaps across EUC, DC, and network

Benefits

Reduced manual intervention through automation
Improved monitoring accuracy with alert suppression
Faster incident detection and resolution
Improved system stability and uptime
Enhanced efficiency across IT operations

Impact

44% of processes identified as automatable
40–50% automation potential across service requests and incidents
Significant reduction in false alerts and operational noise
Reduced P1/P2 incidents across critical systems
Improved operational efficiency and service reliability

Introduction

Manufacturing operations rely heavily on efficient IT support across infrastructure, applications, and core services. Rising ticket volumes, poor classification, and lack of structured service management create inefficiencies, slow resolution, and increased operational costs. This case study highlights how a cement producer transformed its IT operations by combining self-service enablement with automation and process standardization. By improving service catalogue design, governance, and automation readiness, the organization enhanced efficiency, reduced operational load, and improved service delivery.

Customer

A cement manufacturing enterprise managing large-scale IT infrastructure, applications, and support services across plant operations.

Business Objective

Reduce rising IT ticket volumes and operational load
Improve service efficiency through self-service and automation
Standardize ITSM processes and governance
Enhance response and resolution times
Enable scalable and cost-efficient IT operations

Scope of Services

Ticket baseline and trend analysis across incidents and service requests
ITSM process alignment (incident vs service request classification)
Service catalogue design and digitization
Business priority and IT severity standardization
Automation opportunity identification across IT domains
Integration of incident classification, governance, and workflows

Key Insights from Analysis

36,107 total tickets analyzed
31,255 incidents vs 4,852 service requests (heavy incident skew)
2025 ticket volume already reached 75% of 2024 within 5 months
Incidents surged to 80% of previous year volume
IT core support demand increased by 10% YoY

Detailed Findings

Process Issues (47%) → Lack of structured classification and ITSM governance
Security Issues (18%) → Need for compliance, SOX alignment, and governance
Hardware Issues (10%) → Gaps in lifecycle and service catalogue alignment
Software Issues (8%) → Need for digitalization and automation
Network Issues (7%) → Performance and monitoring gaps

Benefits

Improved ticket handling through structured ITSM processes
Reduced manual intervention via self-service enablement
Better SLA adherence through prioritization and governance
Improved visibility into IT operations and performance
Enhanced scalability of IT support operations

Impact

20%–24% automation potential identified
40% automation opportunity in security-related issues
Clear segregation of incidents vs service requests
Reduced dependency on manual support processes
Improved efficiency across IT infrastructure and applications

Introduction

Manufacturing plants depend on stable IT systems across EUC, SAP, network, and application environments to ensure uninterrupted production. High ticket volumes, manual intervention, and delayed resolution directly impact plant uptime and operational efficiency. This case study highlights how a cement manufacturer transformed its IT operations using AI-driven self-healing and automation. By analyzing ticket patterns, standardizing processes, and enabling automation at scale, the organization significantly improved efficiency, reduced incidents, and enhanced plant uptime.

Customer

A cement manufacturing enterprise managing large-scale plant operations with high IT dependency across EUC, SAP, network, and application environments.

Business Objective

Reduce IT ticket volumes and operational load
Improve plant uptime and operational efficiency
Minimize SLA breaches and turnaround time
Enable automation-led IT operations
Improve service quality across IT environments

Scope of Services

Baseline ticket analysis across EUC, SAP, network, and applications
Ticket classification and severity alignment
Service catalogue rationalization and digitization
Automation opportunity identification and implementation
AI-driven event correlation and self-healing enablement
ITSM process standardization and optimization

Key Insights from Analysis

11,586 total tickets analyzed (Jan–Aug 2025)
Ticket volume increased by 33% in recent months
Majority tickets categorized as Moderate severity (10,771)
EUC accounted for 6,412 tickets (largest contributor)
Significant inefficiencies in ticket classification and prioritization

Detailed Findings

Process Issues (27%) → Misclassification and lack of structured ITSM taxonomy
EUC Issues (51%) → High dependency on manual support and outdated service catalogue
SAP Issues (47%) → Need for lifecycle alignment and better business integration
Hardware Issues (17%) → Gaps in service catalogue and storage/EUC alignment

Benefits

Improved ticket handling efficiency through automation
Reduced manual intervention in recurring incidents
Faster incident prioritization and resolution
Better SLA adherence across IT services
Improved visibility and control over IT operations

Impact

48.33% overall automation potential identified
47% efficiency potential in process-related issues
29% efficiency improvement opportunity in EUC
19% efficiency opportunity in SAP
Reduction in manual ticket handling and operational load
Improved plant uptime and IT service reliability

Introduction

Product portfolio transformation is critical for global software companies managing multiple acquired products and fragmented offerings. Disconnected product lines often lead to inconsistent customer experiences, slower innovation cycles, and missed revenue opportunities. This case study highlights how a global software product company restructured its portfolio, modernized products with cloud-native and AI capabilities, and established a scalable innovation model. By aligning product strategy with customer needs and market opportunities, the organization improved monetization, accelerated releases, and strengthened its competitive positioning.

Customer

A global software product company with multiple acquired products, operating across diverse geographies and customer segments.

Business Objective

Consolidate and rationalize fragmented product portfolio
Monetize existing IP and software assets
Accelerate product innovation and time-to-market
Improve customer retention and engagement
Enable scalable product engineering and delivery

Scope of Services

IP acquisition and portfolio restructuring
Product modernization using cloud-native architectures
Infusion of AI/ML capabilities into product offerings
Product roadmap definition and execution
Customer success and lifecycle enablement
Channel and partner ecosystem enablement
API and integration framework standardization

Benefits

Increased monetization of existing product assets
Expanded solution portfolio and revenue streams
Improved customer retention and renewal rates
Faster innovation cycles and release velocity
Scalable product engineering and delivery model

Impact

Clear and scalable product roadmap established
Improved customer engagement and retention
Faster time-to-market for new product releases
Stronger cross-sell and up-sell capabilities
Sustainable innovation and engineering foundation

Introduction

Global operating model transformation enables enterprises to standardize processes, improve governance, and reduce operational costs across complex, multi-region environments. Organizations operating in regulated industries often face fragmented processes, inconsistent compliance practices, and high run-the-business (RTB) costs. This case study highlights how a global enterprise transformed its IT and operations landscape by implementing a standardized, automation-led operating model. By combining AI-driven automation, process rationalization, and strong governance frameworks, the organization achieved scalable efficiency, compliance excellence, and financial optimization.

Customer

A global enterprise operating across multiple regions with a complex IT and operations landscape and strict regulatory and compliance requirements.

Business Objective

Transform global operating model across IT and operations
Standardize processes across portfolios and geographies
Improve operational efficiency and governance
Reduce RTB costs at scale
Strengthen audit and compliance posture

Scope of Services

Global IT and operations delivery transformation
Process standardization and SOP rationalization
Setup of Automation Center of Excellence (CoE)
Implementation of AI-driven operational automation
Risk, audit, and compliance governance frameworks
Global delivery hub and proximity support enablement

Benefits

Enterprise-wide standardized processes
Strong and consistent compliance posture
Improved agility and faster transformation cycles
Predictable and scalable operating model
Reduced dependency on external vendors

Impact

Reduction from 395 SOPs to 25 standardized processes
100% green audit compliance sustained over multiple years
Zero upfront financial commitment for transformation
Multi-market automation rollout across regions
Improved operational consistency and governance

Introduction

Cloud transformation is critical for cold chain logistics providers where infrastructure reliability directly impacts time-sensitive supply chains such as food and pharmaceuticals. Legacy data centers often limit scalability, increase operational risk, and hinder responsiveness to dynamic demand. This case study highlights how a global cold chain logistics provider adopted a cloud-first strategy to modernize its infrastructure. By leveraging hybrid cloud architecture and automation-driven migration, the organization improved resilience, ensured near-zero disruption, and created a scalable foundation for future digital operations.

Customer

A global cold chain logistics provider supporting temperature-controlled logistics, warehousing, and distribution for food and pharmaceutical supply chains.

Business Objective

Enable a cloud-first IT strategy
Improve infrastructure resilience and scalability
Reduce dependency on legacy data centers
Ensure zero disruption to critical operations
Support future digital and operational growth

Scope of Services

Migration of production and DR workloads to Microsoft Azure
Implementation of hybrid cloud operating model (MCOD)
Extension of cloud infrastructure across EMEA and APAC regions
Data center consolidation and migration
Infrastructure automation and digital twin modeling
Testing, deployment, and stabilization of cloud environments

Benefits

Improved infrastructure reliability and resilience
Faster response to operational and business needs
Standardized global infrastructure operations
Reduced operational risk for time-sensitive logistics
Scalable foundation for digital transformation

Impact

70% of workloads migrated to Azure
97% virtualization achieved
Near-zero downtime during migration
Near-zero data loss across systems
Improved operational continuity across global operations

Introduction

Digital experience transformation is redefining how public transportation authorities engage with citizens and travelers. Modern mobility ecosystems require seamless, intuitive, and accessible experiences across airports, transit hubs, and digital platforms. Traditional infrastructure-focused approaches often fail to meet evolving expectations of convenience, personalization, and inclusivity. This case study highlights how a regional transportation authority transformed its ecosystem by integrating human-centered design, immersive technologies, and digital innovation. By leveraging AR/VR, mobile platforms, and multi-cloud infrastructure, the organization created future-ready transportation experiences while optimizing costs and accelerating innovation.

Customer

A leading Australian regional transportation authority responsible for managing metropolitan transport infrastructure, including airports, train stations, and multimodal transit systems.

Business Objective

Design future-ready transportation assets aligned with long-term mobility vision
Deliver accessible and world-class traveler experiences
Position transport infrastructure as experience-driven destinations
Reduce total cost of ownership through outsourcing and cloud adoption
Accelerate innovation through incubation and digital experimentation

Scope of Services

Human-centered design for airport and transit experiences
Development of citizen-facing mobile applications
AR/VR-based experience prototyping and visualization
Strategic outsourcing of applications and infrastructure
Multi-cloud enablement and migration
Innovation incubation through rapid prototyping and validation

Benefits

Improved citizen and traveler engagement
Enhanced accessibility and inclusivity across services
Reduced long-term IT and operational costs
Faster innovation cycles through incubation approach
Scalable and flexible digital infrastructure

Impact

Delivery of immersive AR/VR-based experience designs
Enablement of next-generation traveler experiences
Foundation for scalable and future-ready transport systems
Strengthened positioning of transport infrastructure as destinations

Introduction

Digital logistics platform transformation enables enterprises to modernize legacy systems, reduce operational costs, and improve visibility across complex supply chain operations. Large logistics organizations often struggle with fragmented application landscapes, high run-the-business (RTB) costs, and limited end-to-end shipment visibility. This case study highlights how a global logistics company transformed its operations by building a next-generation digital logistics platform. By rationalizing legacy systems, standardizing processes, and integrating application and infrastructure support, the organization achieved significant cost savings, improved efficiency, and enhanced revenue realization.

Customer

A global supply chain services and logistics company headquartered in the United States, managing enterprise-scale freight forwarding operations and a large application ecosystem.

Business Objective

Reduce RTB costs across IT and operations
Improve end-to-end shipment visibility
Standardize and re-engineer business processes
Reduce incident volumes and support dependency
Establish integrated SLAs and KPIs across operations

Scope of Services

Transformation of core freight forwarding systems
Design and development of a next-generation digital platform
Rationalization of 170+ legacy applications
Creation of a unified enterprise data layer (single source of truth)
Application support services across 115 applications and 25 technologies
Infrastructure support and enterprise help desk operations
Stabilization and automation of support processes
SLA and KPI definition and implementation

Benefits

Significant reduction in RTB costs
Faster customer onboarding through standardized workflows
Improved shipment visibility across logistics operations
Reduced complexity through platform consolidation
Enhanced IT service reliability and predictability

Impact

$100M reduction in RTB costs
60% reduction in customer onboarding time
11% increase in revenue realization
20%+ reduction in ticket volumes
Improved operational efficiency across applications and infrastructure

Introduction

Global IT operations standardization enables logistics enterprises to eliminate fragmented processes and build scalable, automation-led delivery models. Transport and vehicle logistics companies operating across multiple countries often face inconsistent workflows, duplicated efforts, and limited coordination across regions. This case study highlights how a leading European transport and vehicle logistics company transformed its operations by implementing a globally integrated, automation-driven model. By standardizing processes and leveraging AI-driven monitoring and automation, the organization improved efficiency, reduced operational noise, and enhanced financial productivity.

Customer

A leading European transport and vehicle logistics company operating across multiple countries with globally distributed teams and support functions.

Business Objective

Eliminate ad-hoc and non-standardized operational processes
Drive automation-led transformation across applications and infrastructure
Enable a globally integrated operating model
Improve financial productivity through industrialized operations
Enhance coordination across regions and delivery units

Scope of Services

Application development, AMS, and infrastructure support
Management of 55+ enterprise applications
Multi-language EUC support across regions
Global integrated operations and automation delivery model
Proximity support across 13 countries
NOC and SOC operations implementation
Auto-ticketing and event-driven monitoring
AI/ML-based automation and incident optimization

Benefits

Standardized and consistent global operations
Reduced operational overhead through automation
Faster incident detection and resolution
Improved cross-region coordination
Better utilization of IT and support resources

Impact

Integrated infrastructure and applications delivery model leveraging synergies
MOM layer integrated with monitoring tools and AI-driven automation
Measurable financial productivity through automation industrialization
Reduced duplicate tickets and improved operational efficiency
Scalable global operations model supporting business growth

Introduction

Digital commerce platforms enable logistics providers to unify customer interactions, improve shipment visibility, and deliver seamless end-to-end experiences. Fragmented systems across channels often lead to inconsistent customer journeys, limited visibility, and increased dependency on support teams. This case study highlights how an APAC-based logistics provider transformed its operations by building a unified digital commerce platform. By integrating cloud infrastructure, DevOps pipelines, and real-time tracking capabilities, the organization enhanced customer experience, improved operational visibility, and reduced service overhead.

Customer

An APAC-based integrated logistics service provider operating across multiple business units and customer channels.

Business Objective

Eliminate fragmented customer experience across channels
Create a unified digital commerce platform
Improve end-to-end shipment visibility
Reduce dependency on support channels
Enable scalable digital operations

Scope of Services

Development of a unified digital business platform
Cloud infrastructure setup and automation on AWS
Implementation of track-and-trace MVP
Integration across business units and systems
Deployment of recovery and resilience mechanisms

Benefits

Unified and consistent customer experience
Improved visibility across shipment lifecycle
Reduced dependency on call-center support
Enhanced operational efficiency
Scalable digital platform for growth

Impact

20% reduction in customer churn
28% reduction in call-center volumes
Single unified view of customer transactions
Improved customer engagement and retention