Vendor Analysis
published on Sep 25, 2018
Report Overview:
This NelsonHall assessment analyzes LTI's offerings and capabilities in Cloud Infrastructure Brokerage & Orchestration.
Who is this Report for:
NelsonHall’s Cloud Infrastructure Brokerage & Orchestration Services Vendor Assessment for LTI is a comprehensive assessment of LTI’s cloud infrastructure brokerage & orchestration services offerings and capabilities designed for:
- Sourcing managers monitoring the capabilities of existing suppliers of IT services and identifying vendor suitability for cloud infrastructure brokerage & orchestration services
- Vendor marketing, sales and business managers looking to benchmark themselves against their peers
- Financial analysts and investors specializing in cloud infrastructure brokerage & orchestration services.
Scope of this Report:
The report provides a comprehensive and objective analysis of LTI’s cloud infrastructure brokerage & orchestration service offerings, capabilities and market and financial strength, including:
- Analysis of the company’s offerings and key service components
- Revenue estimates
- Identification of the company’s strategy, emphasis and new developments
- Analysis of the profile of the company’s customer base including the company’s targeting strategy and examples of current contracts
- Analysis of the company’s strengths, weaknesses and outlook.
Key Findings & Highlights:
LTI's cloud brokerage platform is utilized by multiple clients to broker, orchestrate and manage their cloud environments. The front-end portal and automation engine is LTI IP; the remainder is built on third-party tools, some licensed and open source technologies. The brokerage platform utilizes Ansible and Mosaic Automation as its provisioning engine. The front-end portal can be integrated with ITSM (ServiceNow, BMC, Remedy). Multi-cloud and hypervisor environments supported include AWS, Azure, Google CP, VMware, Soft Layer, Citrix XenServer, Microsoft Hyper-V, Cisco, rackspace, Open Stack and HPE cloud services, managed through a single pane glass.