Career Highlights

Career Highlights

Leadership

Managed the assembly of a technology roadmap for developing the capabilities required to build the first vacuum fluorescent display capable of showing full motion video.  Led the team of over 30 engineers and scientists that designed and developed this new technology ahead of schedule and under budget.

Leadership

Managed the assembly of a technology roadmap for developing the capabilities required to build the first vacuum fluorescent display capable of showing full motion video.  Led the team of over 30 engineers and scientists that designed and developed this new technology ahead of schedule and under budget.

Program Management

Performed a budgetary assessment as part of creating a plan for how to develop a new tool for thin film dielectric chemical vapor deposition (CVD) for the semiconductor industry.  Managed the efforts of electrical, mechanical and software engineers as well as coordinated vendors, machine shops and in-house production team to design and build a fully functional prototype two months ahead of schedule and within the original forecasted budget of $350K.  Product lifetime sales of over $1B.

Program Management

Performed a budgetary assessment as part of creating a plan for how to develop a new tool for thin film dielectric chemical vapor deposition (CVD) for the semiconductor industry.  Managed the efforts of electrical, mechanical and software engineers as well as coordinated vendors, machine shops and in-house production team to design and build a fully functional prototype two months ahead of schedule and within the original forecasted budget of $350K.  Product lifetime sales of over $1B.

Cost Management

Managed a $1.35M budget during the conception, design and build of a new semiconductor tool for new wafer edge cleaning technology. Stayed on schedule and outperformed the specification (performing an action on the edge of wafers within +/- .002 inches) despite three extra conceptual tool configuration redesigns consuming 6 weeks.

Cost Management

Managed a $1.35M budget during the conception, design and build of a new semiconductor tool for new wafer edge cleaning technology. Stayed on schedule and outperformed the specification (performing an action on the edge of wafers within +/- .002 inches) despite three extra conceptual tool configuration redesigns consuming 6 weeks.

Analysis

Analyzed run logs and failure data from field operations to determine root causes and related down-time impact. Resolved issues through creation of a program comprised of engineering projects to improve performance as measured in wafer throughput and up-time resulting in Applied Materials being awarded over $600 million in new business from Intel.

Reviewed Oil & Gas company’s flexible pipe fabrication process leading to development of strategic design fixes in key equipment resulting in a 90% increase in manufacturing efficiency while eliminating $2M in scrap per year.

Analysis

Analyzed run logs and failure data from field operations to determine root causes and related down-time impact. Resolved issues through creation of a program comprised of engineering projects to improve performance as measured in wafer throughput and up-time resulting in Applied Materials being awarded over $600 million in new business from Intel.

Reviewed Oil & Gas company’s flexible pipe fabrication process leading to development of strategic design fixes in key equipment resulting in a 90% increase in manufacturing efficiency while eliminating $2M in scrap per year.

Design

The Willow Wheel, a centerless, hubless wheel for improved stability and riding performance.  The first version has been designed for and installed on a Harley-Davidson FatBoy.

Designed over 1,300 parts in sheetmetal (electronics packaging), machined pieces (precision mechanisms) and weldments (frames and very large structures) utilizing Computer Aided Design (CAD), Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD).

Design

The Willow Wheel, a centerless, hubless wheel for improved stability and riding performance.  The first version has been designed for and installed on a Harley-Davidson FatBoy.

Designed over 1,300 parts in sheetmetal (electronics packaging), machined pieces (precision mechanisms) and weldments (frames and very large structures) utilizing Computer Aided Design (CAD), Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD).

Patents

Awarded 4 patents and 9 patents pending.  Patents on file for advances made in the oil & gas, plastics, flat panel, and semiconductor industries.

Patents

Awarded 4 patents and 9 patents pending.  Patents on file for advances made in the oil & gas, plastics, flat panel, and semiconductor industries.

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