Jeremy Deane
ArchConf
Clearwater · December 10 - 13, 2018
Chief Architect at Foundation Medicine
Jeremy Deane is innovative technology leader, conference speaker, and technical author with diverse experience, in premier technical settings, with proven expertise in Enterprise Architecture, Software Architecture, and Software Process Improvement.
Presentations
AMQP Messaging Fundamentals
This two session workshop covers AMQP messaging concepts and technologies including hands-on exercises with RabbitMQ, Spring and Docker
AMQP Messaging Fundamentals
This two session workshop covers AMQP messaging concepts and technologies including hands-on exercises with RabbitMQ, Spring and Docker
Architecture Trade-offs
Software architecture involves inherent trade-offs. Some of these trade-offs are clear, such as performance versus security or availability versus consistency, while others are more subtle, like resiliency versus affordability. This presentation will discuss various architectural trade-offs and strategies for managing them.
Technology Innovation Diffusion
In this session you will learn to strategically introduce technology innovations by applying specific change patterns to groups of individuals. Using these patterns and related techniques will not only benefit your organization but will ultimately benefit your career as a technologist by making you a better influencer, writer, and speaker.
Event-driven Microservices
Using the Microservices Architectural Style to incrementally adopt an Event-driven Architecture (EDA) lowers up-front costs while decreasing time-to-market. EDA extracts value from existing occurrences, limiting invasive refactoring or disrupting existing application development efforts. Implementing Event-driven Microservices yields intelligence, scalable, extensible, reactive endpoints.
Architecture Resiliency
No matter the techniques used to make enterprise solutions Highly Available (HA), failure is inevitable at some point. Resiliency refers to how quickly a system reacts to and recovers from such failures. This presentation discusses various architectural resiliency techniques and patterns that help increase Mean Time to Failure (MTTF), also known as Fault Tolerance, and decrease Mean Time to Recovery (MTTR).