Industrial Engineering - Productivity Improvement - Process Improvement - Product Redesign - Continuous Improvement
Industrial engineering is improvement in various elements of engineering operations to increase productivity. Along with engineering elements, industrial engineers evaluate and improve many other elements also as they are responsible for productivity and cost of items produced in a process. Through assignments of improving productivity and efficiency of information technology and software engineering processes, industrial engineers specializing in IT were given responsibility for business processes also. Thus industrial engineers with focus on various branches of engineering provide their services to companies and society to improve various elements of the products and processes on a continuous basis over the product life cycle. They are active in engineering or production-maintenance-service-logistic processes and business processes.
Productivity improvement always focuses on quality and flexibility issues as productivity improvement should not lead to any deterioration in quality or flexibility. Delivery and cost are always at the core of industrial engineering. Thus when QFCD paradigm came, that is attention to quality, flexibility, cost and delivery became prominent, many industrial engineers were given the responsibility of managing this function of continuous improvement.
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Focus Areas of Industrial Engineering - Brief Explanation
Productivity Science: Science developed for each element of machine operation and each element of human tasks in industry.
Productivity Science - Determinants of Productivity
Product Industrial Engineering: Redesign of products to reduce cost and increase value keeping the quality intact.
Product Industrial Engineering
Process Industrial Engineering: Redesign of processes to reduce cost and increase value keeping the quality intact.
Process Industrial Engineering
Industrial Engineering Optimization: Optimizing industrial engineering solutions created in Product Industrial Engineering and Process Industrial Engineering.
Operations Research - An Efficiency Improvement Tool for Industrial Engineers
Operations Research - An Efficiency Improvement Tool for Industrial Engineers
Industrial Engineering Statistics: Using statistical tools like data description, sampling and design of experiments in industrial engineering activity.
Statistics and Industrial Engineering
Industrial Engineering Economics: Economic analysis of industrial engineering projects.
Engineering Economics is an Efficiency Improvement Tool for Industrial Engineers
Human Effort Industrial Engineering: Redesign of products and processes to increase satisfaction and reduce discomfort and other negative consequence to operators.
Motion Study - Human Effort Industrial Engineering
Productivity Measurement: Various measurements done by industrial engineers in industrial setting to collect data, analyze data and use the insights in redesign: Product Industrial Engineering and Process Industrial Engineering.
Industrial Engineering Data and Measurements
Productivity Management: Management undertaken by industrial engineers to implement Product Industrial Engineering and Process Industrial Engineering. Management processes industrial engineering is also part of productivity management.
Productivity Management
Applied Industrial Engineering: Application of industrial engineering in new technologies, existing technologies, engineering business and industrial processes and other areas.
Applied Industrial Engineering - Process Steps
https://nraoiekc.blogspot.com/2020/03/value-creation-model-for-industrial.html
Industrial Engineering - Lean Manufacturing - Parent - Child Relationship
We create world-changing technology that enriches the lives of every person on earth.
We are inspired to:
Drive innovation that makes the world safer, builds healthy and vibrant communities, and increases productivity.
Harness our reach around the globe to better society, business, and the planet.
Push ourselves and our industry peers to be more responsible, inclusive, and sustainable.
We have big ambitions, and a growing sense of urgency to work with others and address world challenges no one can tackle alone.
https://www.intel.in/content/www/in/en/company-overview/company-overview.html
Note: Productivity is a strategic objective for Intel.
How many Industrial Engineers can a Company Employ for Cost Reduction?
For $100 million cost, there can be one MS IE and 6 BSIEs.https://nraoiekc.blogspot.com/2020/03/value-creation-model-for-industrial.html
Industrial Engineering - Lean Manufacturing - Parent - Child Relationship
Intel
Intel Purpose
Our PurposeWe create world-changing technology that enriches the lives of every person on earth.
We are inspired to:
Drive innovation that makes the world safer, builds healthy and vibrant communities, and increases productivity.
Harness our reach around the globe to better society, business, and the planet.
Push ourselves and our industry peers to be more responsible, inclusive, and sustainable.
We have big ambitions, and a growing sense of urgency to work with others and address world challenges no one can tackle alone.
https://www.intel.in/content/www/in/en/company-overview/company-overview.html
Note: Productivity is a strategic objective for Intel.
IE Jobs Intel
25.3.2022
Job ID: JR0200687
Job Category: Contract Employee
Primary Location: Kulim, KDH MY
Other Locations:
Job Type: Intel Contract Employee
Industrial Engineer Kulim, KDH MY
Job Description
Industrial Engineers plan plant, production facilities and equipment layouts, determines the most efficient sequence of operations and workflow, and establishes methods for maximum utilization of production facilities and personnel. Develops metrics to measure equipment and factory capacity and output, and to identify equipment and process flow bottlenecks. May establish or assist in establishing accident prevention measures and may plan and schedule training programs for personnel concerning all phases of production operations. Conducts studies pertaining to cost control, cost reduction, inventory control, and production record systems. On the basis of these studies, develops and implements plans and programs for facility modifications and revisions to operating methods. Responds to customer/client requests or events as they occur. Develops solutions to problems utilizing formal education and judgement.
Qualifications
Bachelor of Science degree in Industrial Engineering or equivalent with 1-2 years of working experience in Industrial Engineering Preferred Skills for Candidates:
Positive attitude with energy and passion
Strong English verbal and written communication skills
Strong analytical skill
Ability to work effectively as an individual with minimal direction, and as part of a larger team
Strategic and tactical thinker who could influence the business process and factory while providing coaching/guidance to meet the best resolutions.
Ability to communicate strategic and tactical concepts across a wide range of employees; engineering peers to operational technicians to management
Must be able to negotiate and resolve conflicts within all levels of the organization to a win/win solution
Basic understanding of data structures/query fundamentals and experience in scripting languages (example Excel VBA and R Language).
Inside this Business Group
As the world's largest chip manufacturer, Intel strives to make every facet of semiconductor manufacturing state-of-the-art -- from semiconductor process development and manufacturing, through yield improvement to packaging, final test and optimization, and world class Supply Chain and facilities support. Employees in the Technology Development and Manufacturing Group are part of a worldwide network of design, development, manufacturing, and assembly/test facilities, all focused on utilizing the power of Moore’s Law to bring smart, connected devices to every person on Earth.
28 January 2022
Industrial Engineer Ho Chi Minh City, SG VN (Vietnam)
Job ID: JR0190746
Job Category: Engineering
Primary Location: Ho Chi Minh City, SG VN
Job Type: Industrial Engineer
Job Description
Industrial Engineers plan plants, production facilities, and equipment layouts, determines the most efficient sequence of operations and workflow, and establishes methods for maximum utilization of production facilities and personnel.
Developing metrics to measure equipment and factory capacity and output, and to identify equipment and process flow bottlenecks.
May establish or assist in establishing accident prevention measures and may plan and schedule training programs for personnel concerning all phases of production operations.
Conducting studies pertaining to cost control, cost reduction, inventory control, and production record systems. Based on these studies, develops and implements plans and programs for facility modifications and revisions to operating methods.
Responding to customer/client requests or events as they occur.
Developing solutions to problems utilizing formal education and judgment.
Qualifications
Bachelor’s or Master’s degree in Industrial Engineering/ Industrial Management/ Supply Chain with relevant experience.
Intel - Industrial Engineering - Machine Effort Industrial Engineering - Human Effort Industrial Engineering
Industrial Engineers plan plants, production facilities, and equipment layouts, determines the most efficient sequence of operations and workflow, and establishes methods for maximum utilization of production facilities and personnel.
27 November 2021
Technologies, solutions, and processes are applied to optimally serve Intel’s business through the following metrics: best-in-class quality of service (QoS), lowest unit cost, and resource utilization efficiency.
Continual improvement is done in each of these three metrics. The potential for improvement is first defined as a “Model of Record” (MOR). This term represents a data center environment with an unconstrained budget ro buy the latest and greatest technology, develop new solutions, and update or develop new processes. In this MOR environment, the lowest unit cost, best QoS, and maximum utilization are calculated. The MOR improves every year, because technology and processes improve every year. (Industrial engineers to note especially. IEs have to learn about new technologies and developments in existing technologies on a continuous basis.)
But in reality, every IT shop has a limited budget. Within that limited budget only, investments in improvement are done. This real world environment is called the “Plan of Record” (POR). Year over year, the goal is to improve the POR at a faster rate of change than the MOR changes, so that actual results get closer to the MOR every year. Intel's seemingly simple MOR/POR data center transformation strategy has created unprecedented business value: a cost savings exceeding USD 2.8 billion (over 9 years) compared to public cloud infrastructure as a service (IaaS).
A primary area of focus in data center industrial engineering is to reduce the cost of data center facilities. This includes construction costs (measured in $/KW), electricity costs, water costs, and more. Several unique ways are used to reduce construction costs. The new data centers use recycled water instead of fresh water saving money as well as contributing environment conservation
About Shesha Krishnapura
Shesha Krishnapura is an Intel Fellow and chief technology officer in the Information Technology organization at Intel Corporation. He is responsible for advancing Intel data centers for energy and rack space efficiency, high-performance computing (HPC) for electronic design automation (EDA), and optimized platforms for enterprise computing.
https://itpeernetwork.intel.com/intels-data-center-strategy-leads-to-usd-2-8-billion-in-savings/
2020
Intel Supply Chain Design to Cost for Atom
https://supplychainchannel.co/mini-case-studies-supply-chain-cost-reduction-and-management/
INTEL: LTD Industrial Engineer job
INTEL: Location - HILLSBORO, OR
Logic Technology Development LTD is looking for Industrial Engineers!
In this team you will be responsible for but not limited to:
Developing industrial engineering methods for each technology in the areas of cleanroom factory layout and capacity, implementing them locally, and then transferring them to the other sites across Intel.
As a TD industrial engineer you will use the wafer fabrication process flow and collaborate with process engineers to create and validate capacity models for all fab equipment types. These models are the basis of the Model of Record that is used to determine equipment requirements to meet the fab technology ramps across the company.
Additional Responsibilities:
You will work with process engineers and equipment suppliers to spatially optimize the configuration of first-of-a-kind equipment and use that information to create layout blocks and layout methodologies that are used across all Intel wafer fabs.
Industrial Engineer at Ho Chi Minh City, SG
Job ID: JR0190746
Job Category: Engineering
Primary Location: Ho Chi Minh City, SG VN
Other Locations:
Job Type:
Industrial Engineer
Job Description
Industrial Engineers plan plants, production facilities, and equipment layouts, determines the most efficient sequence of operations and workflow, and establishes methods for maximum utilization of production facilities and personnel.
Developing metrics to measure equipment and factory capacity and output, and to identify equipment and process flow bottlenecks.
May establish or assist in establishing accident prevention measures and may plan and schedule training programs for personnel concerning all phases of production operations.
Conducting studies pertaining to cost control, cost reduction, inventory control, and production record systems. Based on these studies, develops and implements plans and programs for facility modifications and revisions to operating methods.
Responding to customer/client requests or events as they occur.
Developing solutions to problems utilizing formal education and judgment.
Qualifications
Bachelor’s or Master’s degree in Industrial Engineering/ Industrial Management/ Supply Chain with relevant experience.
Intel - Industrial Engineering Activities
Intel appoints Santhosh Viswanathan as MD Sales Marketing and Communication Group for India.
Jan 20, 2022, 13:38 IST
Santhosh has an engineering degree in industrial engineering and management and masters in management.
http://timesofindia.indiatimes.com/articleshow/89014298.cms
Santhosh has an engineering degree in industrial engineering and management and masters in management.
http://timesofindia.indiatimes.com/articleshow/89014298.cms
23 Dec 2021
The 2022 Intel® oneAPI toolkits deliver productivity and performance through a complete set of advanced tools, including libraries, compilers, analysers, pre-optimised frameworks and debuggers.
https://analyticsindiamag.com/intel-releases-2022-toolkits-for-oneapi-its-cross-architecture-middleware-for-developers/
Industrial Engineer Kemi and Optimizes Capital at Intel
October 14, 2021
She’s always on the lookout for the best price when it comes to the highest quality product. It’s a mentality she brings with her to work.
Kemi is an LTD industrial engineer at Intel, part of the Model of Record team that works across all groups to optimize everything from process to equipment to time expenditures, all while looking for ways to lower costs without impacting product quality.
Intel’s Data Center Industrial Engineering - USD 2.8 Billion in Savings - Productivity and Continuous Cost Reduction Strategy
Shesha Krishnapura | September 25, 2019Technologies, solutions, and processes are applied to optimally serve Intel’s business through the following metrics: best-in-class quality of service (QoS), lowest unit cost, and resource utilization efficiency.
Continual improvement is done in each of these three metrics. The potential for improvement is first defined as a “Model of Record” (MOR). This term represents a data center environment with an unconstrained budget ro buy the latest and greatest technology, develop new solutions, and update or develop new processes. In this MOR environment, the lowest unit cost, best QoS, and maximum utilization are calculated. The MOR improves every year, because technology and processes improve every year. (Industrial engineers to note especially. IEs have to learn about new technologies and developments in existing technologies on a continuous basis.)
But in reality, every IT shop has a limited budget. Within that limited budget only, investments in improvement are done. This real world environment is called the “Plan of Record” (POR). Year over year, the goal is to improve the POR at a faster rate of change than the MOR changes, so that actual results get closer to the MOR every year. Intel's seemingly simple MOR/POR data center transformation strategy has created unprecedented business value: a cost savings exceeding USD 2.8 billion (over 9 years) compared to public cloud infrastructure as a service (IaaS).
A primary area of focus in data center industrial engineering is to reduce the cost of data center facilities. This includes construction costs (measured in $/KW), electricity costs, water costs, and more. Several unique ways are used to reduce construction costs. The new data centers use recycled water instead of fresh water saving money as well as contributing environment conservation
About Shesha Krishnapura
Shesha Krishnapura is an Intel Fellow and chief technology officer in the Information Technology organization at Intel Corporation. He is responsible for advancing Intel data centers for energy and rack space efficiency, high-performance computing (HPC) for electronic design automation (EDA), and optimized platforms for enterprise computing.
https://itpeernetwork.intel.com/intels-data-center-strategy-leads-to-usd-2-8-billion-in-savings/
2020
Intel Supply Chain Design to Cost for Atom
https://supplychainchannel.co/mini-case-studies-supply-chain-cost-reduction-and-management/
Intel’s Operations Management Strategy: 10 Decisions, Productivity
APRIL 22, 2017
http://panmore.com/intel-operations-management-strategy-10-decisions-productivity
The application of Lean Six Sigma to the configuration control in Intel’s manufacturing R&D environment
Article (PDF Available) · October 2014https://www.researchgate.net/publication/280181069_The_application_of_Lean_Six_Sigma_to_the_configuration_control_in_Intel's_manufacturing_RD_environment
Intel is the world’s largest computer chip maker. Joe Foley, factory manager at Intel Fab Operations in Leixlip, Ireland, said: “Five years ago, it took us 14 weeks to introduce a new chip to our factory; now it takes 10 days. We were the first Intel factory to achieve these times using Lean principles.”
https://www.manufacturingglobal.com/top-10/top-10-lean-manufacturing-companies-world
Lean principles are now being adopted by organisations like Intel and Ryanair to boost business.
https://www.siliconrepublic.com/companies/inside-intel-how-lean-thinking-could-pave-the-road-for-future-chip-investment
Intel Corporation's Fab 23 is committed to implementing lean manufacturing to reduce their production cycle times and cost. This thesis is focused around the development of the principles of lean that are most relevant to Intel's complex manufacturing flow and then the application of these principles to improve the operations in a focused area, the Sorting floor. Direct examination of the work in Sort raises the awareness of inefficiencies from overproduction and inventory; viewing this work as a series of structured activities, customer-supplier connections, and simplified flows further crystallizes the need for a structured approach towards WIP management. A pilot implementation of a CONWIP control of inventory demonstrates reductions in cycle time variability and provides a foundation for further improvements. In conclusion, the challenges experienced with changing the manufacturing systems in Sort were largely organizational and likely to be seen in many other operational areas at Fab 23.
2005
https://dspace.mit.edu/handle/1721.1/34870
2020
PROCESS MINING FOR A DIGITALLY TRANSFORMED WORLD
Presenter: Dr. Steven Remsen, Manager, Intel Corporation, Hillsboro, OR, USA
https://www.linkedin.com/in/stevenremsen/
Keywords:Process Mining, Digital Transformation, Process Mapping, Big Data, Automated Process Discovery, BPM
Industry: Manufacturing
https://leanandsixsigma.org/Process-Mining
2007
IT and Productivity
https://books.google.co.in/books?id=E3hRzKZGBJwC&pg=PA21#v=onepage&q&f=false
Industrial Engineers - Intel
Jayanth Narahari
Industrial Engineer with immense curiosity and eagerness to learn
LTD Industrial Engineer (Logic Technology Development)
Intel Corporation
Sunnyvale, California, United States
The University of Texas at Arlington
Steven Remsen, PhD, MBA
1st degree connection1st
Senior Manager of Internal Consulting at Intel
Throughout my journey, I've played a pivotal role in establishing and building a thriving management consulting organization at Intel, led the Intel Lean Six Sigma program, championed and led various diversity and inclusion initiatives, and spearheaded numerous continuous improvement and transformation projects across various functional areas of the Intel enterprise, culminating in over $500M in finance-approved ROI.
Industrial engineers are employed and productivity improvement and cost reduction are practiced in many companies using Industrial engineering philosophy, principles, methods, techniques and tools.
Index to Industrial Engineering Practice in Top Global Manufacturing Companies - Top 100
Online Handbook of Industrial Engineering
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