�ݺ�ߣshows by User: IanPhillips1

�ݺ�ߣshows by User: IanPhillips1 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: IanPhillips1 / Fri, 10 Dec 2021 12:20:54 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: IanPhillips1 A Journey Not A Destination - 6dec21 /slideshow/a-journey-6dec21/250817581 ajourney6dec21-211210122055
It is 5yr since I retired from ARM. And it is becoming apparent to me that my technical knowledge and skills are fading. Worse of course, the technology hasn't stopped developing, so the gap between my abilities and the needs of 2021 employers is growing at a square law. So it's time for me to stop talking technology and talk instead about the the generic lessons and experiences of my engineering career ... which may well turn out to be a valuable asset to you.]]>
It is 5yr since I retired from ARM. And it is becoming apparent to me that my technical knowledge and skills are fading. Worse of course, the technology hasn't stopped developing, so the gap between my abilities and the needs of 2021 employers is growing at a square law. So it's time for me to stop talking technology and talk instead about the the generic lessons and experiences of my engineering career ... which may well turn out to be a valuable asset to you.]]> Fri, 10 Dec 2021 12:20:54 GMT /slideshow/a-journey-6dec21/250817581 IanPhillips1@slideshare.net(IanPhillips1) A Journey Not A Destination - 6dec21 IanPhillips1 It is 5yr since I retired from ARM. And it is becoming apparent to me that my technical knowledge and skills are fading. Worse of course, the technology hasn't stopped developing, so the gap between my abilities and the needs of 2021 employers is growing at a square law. So it's time for me to stop talking technology and talk instead about the the generic lessons and experiences of my engineering career ... which may well turn out to be a valuable asset to you. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ajourney6dec21-211210122055-thumbnail.jpg?width=120&height=120&fit=bounds" /> It is 5yr since I retired from ARM. And it is becoming apparent to me that my technical knowledge and skills are fading. Worse of course, the technology hasn't stopped developing, so the gap between my abilities and the needs of 2021 employers is growing at a square law. So it's time for me to stop talking technology and talk instead about the the generic lessons and experiences of my engineering career ... which may well turn out to be a valuable asset to you.

A Journey Not A Destination - 6dec21 from Ian Phillips

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0 They're Not Making Smaller Atoms (v2) /slideshow/theyre-not-making-smaller-atoms-v2/244067040 smalleratomsjan21s-210309114456
"Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. Powered by this success, physical science raced onward. 114yrs later, in 1974 the first transistor appeared, and within the next 15yrs the first integrated circuit and the discovery of Moores' Law. With each step the sophistication of the control systems grew, and the products based on them ever cheaper and more pervasive ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed. And today as the size of the individual transistors approach the size of the atom itself, the possibilities to maintain this 'logarithm of expectation' has obvious limits. After 186yrs are we approaching the end of the electronic system scaling, that society has accepted as a fundamental law?]]>
"Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. Powered by this success, physical science raced onward. 114yrs later, in 1974 the first transistor appeared, and within the next 15yrs the first integrated circuit and the discovery of Moores' Law. With each step the sophistication of the control systems grew, and the products based on them ever cheaper and more pervasive ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed. And today as the size of the individual transistors approach the size of the atom itself, the possibilities to maintain this 'logarithm of expectation' has obvious limits. After 186yrs are we approaching the end of the electronic system scaling, that society has accepted as a fundamental law?]]> Tue, 09 Mar 2021 11:44:55 GMT /slideshow/theyre-not-making-smaller-atoms-v2/244067040 IanPhillips1@slideshare.net(IanPhillips1) They're Not Making Smaller Atoms (v2) IanPhillips1 "Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. Powered by this success, physical science raced onward. 114yrs later, in 1974 the first transistor appeared, and within the next 15yrs the first integrated circuit and the discovery of Moores' Law. With each step the sophistication of the control systems grew, and the products based on them ever cheaper and more pervasive ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed. And today as the size of the individual transistors approach the size of the atom itself, the possibilities to maintain this 'logarithm of expectation' has obvious limits. After 186yrs are we approaching the end of the electronic system scaling, that society has accepted as a fundamental law? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratomsjan21s-210309114456-thumbnail.jpg?width=120&height=120&fit=bounds" /> "Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. Powered by this success, physical science raced onward. 114yrs later, in 1974 the first transistor appeared, and within the next 15yrs the first integrated circuit and the discovery of Moores' Law. With each step the sophistication of the control systems grew, and the products based on them ever cheaper and more pervasive ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed. And today as the size of the individual transistors approach the size of the atom itself, the possibilities to maintain this 'logarithm of expectation' has obvious limits. After 186yrs are we approaching the end of the electronic system scaling, that society has accepted as a fundamental law?

They're Not Making Smaller Atoms (v2) from Ian Phillips

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0 They're Not Making Smaller Atoms /slideshow/theyre-not-making-smaller-atoms-229589805/229589805 smalleratoms5mar20c-200303114059
By 1833 the knowledge of materials had advanced to a point where the first electronic amplifier was made. It was just a relay, but it enabled the creation of the first control systems which found immediate military and commercial applications ... Electronics had arrived, and the world didn't look back. In 1974 the solid-state transistor emerged, and within 15yrs the first integrated circuit. Moores' Law was discovered, the periodic beat that produced ever more sophisticated, cheaper and pervasive products ... And a societal addiction to their magic. Through nearly 200yrs of electronics Scientists have increased our knowledge and processing of the 118 elements ... but the materials themselves are still the same as they were in 1833. So today as the size of integrated transistors approach the size of atoms themselves, can societies 'expectation exponential' be maintained ... Have we reached the end of Moore's Law? ]]>
By 1833 the knowledge of materials had advanced to a point where the first electronic amplifier was made. It was just a relay, but it enabled the creation of the first control systems which found immediate military and commercial applications ... Electronics had arrived, and the world didn't look back. In 1974 the solid-state transistor emerged, and within 15yrs the first integrated circuit. Moores' Law was discovered, the periodic beat that produced ever more sophisticated, cheaper and pervasive products ... And a societal addiction to their magic. Through nearly 200yrs of electronics Scientists have increased our knowledge and processing of the 118 elements ... but the materials themselves are still the same as they were in 1833. So today as the size of integrated transistors approach the size of atoms themselves, can societies 'expectation exponential' be maintained ... Have we reached the end of Moore's Law? ]]> Tue, 03 Mar 2020 11:40:59 GMT /slideshow/theyre-not-making-smaller-atoms-229589805/229589805 IanPhillips1@slideshare.net(IanPhillips1) They're Not Making Smaller Atoms IanPhillips1 By 1833 the knowledge of materials had advanced to a point where the first electronic amplifier was made. It was just a relay, but it enabled the creation of the first control systems which found immediate military and commercial applications ... Electronics had arrived, and the world didn't look back. In 1974 the solid-state transistor emerged, and within 15yrs the first integrated circuit. Moores' Law was discovered, the periodic beat that produced ever more sophisticated, cheaper and pervasive products ... And a societal addiction to their magic. Through nearly 200yrs of electronics Scientists have increased our knowledge and processing of the 118 elements ... but the materials themselves are still the same as they were in 1833. So today as the size of integrated transistors approach the size of atoms themselves, can societies 'expectation exponential' be maintained ... Have we reached the end of Moore's Law? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms5mar20c-200303114059-thumbnail.jpg?width=120&height=120&fit=bounds" /> By 1833 the knowledge of materials had advanced to a point where the first electronic amplifier was made. It was just a relay, but it enabled the creation of the first control systems which found immediate military and commercial applications ... Electronics had arrived, and the world didn't look back. In 1974 the solid-state transistor emerged, and within 15yrs the first integrated circuit. Moores' Law was discovered, the periodic beat that produced ever more sophisticated, cheaper and pervasive products ... And a societal addiction to their magic. Through nearly 200yrs of electronics Scientists have increased our knowledge and processing of the 118 elements ... but the materials themselves are still the same as they were in 1833. So today as the size of integrated transistors approach the size of atoms themselves, can societies 'expectation exponential' be maintained ... Have we reached the end of Moore's Law?

They're Not Making Smaller Atoms from Ian Phillips

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0 Not Making Smaller Atoms /slideshow/not-making-smaller-atoms-194741051/194741051 smalleratoms19nov191v1c-191118121619
"Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. In 1951 the first transistor appeared, and within the next 9 yrs the first integrated circuit and the recognition of Moores' Law. And with each beat, the sophistication of the products linked to it increased ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed! And so today with individual transistors approaching the size of the atom, the possibilities to maintain this 'logarithm of expectation' has clear limits. After 186yrs are we approaching the end of the electronic system scaling, that society now accepts as a fundamental law? [1,929 views on LinkedIn by 1dec19]]]>
"Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. In 1951 the first transistor appeared, and within the next 9 yrs the first integrated circuit and the recognition of Moores' Law. And with each beat, the sophistication of the products linked to it increased ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed! And so today with individual transistors approaching the size of the atom, the possibilities to maintain this 'logarithm of expectation' has clear limits. After 186yrs are we approaching the end of the electronic system scaling, that society now accepts as a fundamental law? [1,929 views on LinkedIn by 1dec19]]]> Mon, 18 Nov 2019 12:16:19 GMT /slideshow/not-making-smaller-atoms-194741051/194741051 IanPhillips1@slideshare.net(IanPhillips1) Not Making Smaller Atoms IanPhillips1 "Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. In 1951 the first transistor appeared, and within the next 9 yrs the first integrated circuit and the recognition of Moores' Law. And with each beat, the sophistication of the products linked to it increased ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed! And so today with individual transistors approaching the size of the atom, the possibilities to maintain this 'logarithm of expectation' has clear limits. After 186yrs are we approaching the end of the electronic system scaling, that society now accepts as a fundamental law? [1,929 views on LinkedIn by 1dec19] <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms19nov191v1c-191118121619-thumbnail.jpg?width=120&height=120&fit=bounds" /> "Scientists investigate that which already is; engineers create that which has never been." - A.Einstein. By 1833 the knowledge about physical materials had advanced to a point where the first electronic amplifier was made. It was a relay, but it enabled the creation of the first control systems which found immediate use for military and commercial purposes ... Electronics had arrived, and the world didn't look back. In 1951 the first transistor appeared, and within the next 9 yrs the first integrated circuit and the recognition of Moores' Law. And with each beat, the sophistication of the products linked to it increased ... And society, became increasingly dependent on them. Through all of this, Physicists have increased their knowledge about our 118 elements, but the atoms themselves haven't changed! And so today with individual transistors approaching the size of the atom, the possibilities to maintain this 'logarithm of expectation' has clear limits. After 186yrs are we approaching the end of the electronic system scaling, that society now accepts as a fundamental law? [1,929 views on LinkedIn by 1dec19]

Not Making Smaller Atoms from Ian Phillips

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0 Public Image of the Engineering Profession (PIEP) /slideshow/public-image-of-the-engineering-profession-piep/146237907 publicimage1v1-190517093928
Despite the huge and obvious contribution that engineering has made and continues to make for society; the roles of the Engineer, Scientist and Technician in delivering this has become invisible to society. There are indications that this level of public ignorance is already adversely affecting the economic opportunity and even security of the nation. This situation has effectively taken the Engineering Profession into public disrepute; and something needs to be done urgently to remedy it ...]]>
Despite the huge and obvious contribution that engineering has made and continues to make for society; the roles of the Engineer, Scientist and Technician in delivering this has become invisible to society. There are indications that this level of public ignorance is already adversely affecting the economic opportunity and even security of the nation. This situation has effectively taken the Engineering Profession into public disrepute; and something needs to be done urgently to remedy it ...]]> Fri, 17 May 2019 09:39:28 GMT /slideshow/public-image-of-the-engineering-profession-piep/146237907 IanPhillips1@slideshare.net(IanPhillips1) Public Image of the Engineering Profession (PIEP) IanPhillips1 Despite the huge and obvious contribution that engineering has made and continues to make for society; the roles of the Engineer, Scientist and Technician in delivering this has become invisible to society. There are indications that this level of public ignorance is already adversely affecting the economic opportunity and even security of the nation. This situation has effectively taken the Engineering Profession into public disrepute; and something needs to be done urgently to remedy it ... <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/publicimage1v1-190517093928-thumbnail.jpg?width=120&height=120&fit=bounds" /> Despite the huge and obvious contribution that engineering has made and continues to make for society; the roles of the Engineer, Scientist and Technician in delivering this has become invisible to society. There are indications that this level of public ignorance is already adversely affecting the economic opportunity and even security of the nation. This situation has effectively taken the Engineering Profession into public disrepute; and something needs to be done urgently to remedy it ...

Public Image of the Engineering Profession (PIEP) from Ian Phillips

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0 Science to Product 2v0 /slideshow/science-to-business-2v0/133451525 sciencetobusiness2v0-190226213152
Though Science is an inseparable part of most of todays Products, the way that Science actually gets into Products is only poorly understood. So if you plan to be a Researcher, or a Business person, then this should interest you. If your breakthrough science isn't recognised then the investment in you and your time was wasted. And if your business isn't benefiting from the large amount of money being invested to improve your business then that is a waste of opportunity. So this talk will bring a new perspective to the nature of Business; and what and when it needs an injection of new Science or Technology. And it will show the mutual benefits of partnering.]]>
Though Science is an inseparable part of most of todays Products, the way that Science actually gets into Products is only poorly understood. So if you plan to be a Researcher, or a Business person, then this should interest you. If your breakthrough science isn't recognised then the investment in you and your time was wasted. And if your business isn't benefiting from the large amount of money being invested to improve your business then that is a waste of opportunity. So this talk will bring a new perspective to the nature of Business; and what and when it needs an injection of new Science or Technology. And it will show the mutual benefits of partnering.]]> Tue, 26 Feb 2019 21:31:51 GMT /slideshow/science-to-business-2v0/133451525 IanPhillips1@slideshare.net(IanPhillips1) Science to Product 2v0 IanPhillips1 Though Science is an inseparable part of most of todays Products, the way that Science actually gets into Products is only poorly understood. So if you plan to be a Researcher, or a Business person, then this should interest you. If your breakthrough science isn't recognised then the investment in you and your time was wasted. And if your business isn't benefiting from the large amount of money being invested to improve your business then that is a waste of opportunity. So this talk will bring a new perspective to the nature of Business; and what and when it needs an injection of new Science or Technology. And it will show the mutual benefits of partnering. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sciencetobusiness2v0-190226213152-thumbnail.jpg?width=120&height=120&fit=bounds" /> Though Science is an inseparable part of most of todays Products, the way that Science actually gets into Products is only poorly understood. So if you plan to be a Researcher, or a Business person, then this should interest you. If your breakthrough science isn't recognised then the investment in you and your time was wasted. And if your business isn't benefiting from the large amount of money being invested to improve your business then that is a waste of opportunity. So this talk will bring a new perspective to the nature of Business; and what and when it needs an injection of new Science or Technology. And it will show the mutual benefits of partnering.

Science to Product 2v0 from Ian Phillips

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0 Science to Product /slideshow/science-to-business-124607763/124607763 sciencetobusiness1v2-181201201126
Spending around £1B/yr on academic research, I can feel a growing frustration in Government circles at (UK) Industries failure to exploit the world-class research outcomes from this. This talk is aimed at clarifying the situation and provide some guidance for ways in which these two very different communities can provide for their respective needs.]]>
Spending around £1B/yr on academic research, I can feel a growing frustration in Government circles at (UK) Industries failure to exploit the world-class research outcomes from this. This talk is aimed at clarifying the situation and provide some guidance for ways in which these two very different communities can provide for their respective needs.]]> Sat, 01 Dec 2018 20:11:26 GMT /slideshow/science-to-business-124607763/124607763 IanPhillips1@slideshare.net(IanPhillips1) Science to Product IanPhillips1 Spending around £1B/yr on academic research, I can feel a growing frustration in Government circles at (UK) Industries failure to exploit the world-class research outcomes from this. This talk is aimed at clarifying the situation and provide some guidance for ways in which these two very different communities can provide for their respective needs. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sciencetobusiness1v2-181201201126-thumbnail.jpg?width=120&height=120&fit=bounds" /> Spending around £1B/yr on academic research, I can feel a growing frustration in Government circles at (UK) Industries failure to exploit the world-class research outcomes from this. This talk is aimed at clarifying the situation and provide some guidance for ways in which these two very different communities can provide for their respective needs.

Science to Product from Ian Phillips

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0 Being In-The-Room /slideshow/being-intheroom/90191335 beingthere09mar182v0-180309210323
After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... then all I had to do was to continue be known for my valued contributions.]]>
After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... then all I had to do was to continue be known for my valued contributions.]]> Fri, 09 Mar 2018 21:03:23 GMT /slideshow/being-intheroom/90191335 IanPhillips1@slideshare.net(IanPhillips1) Being In-The-Room IanPhillips1 After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... then all I had to do was to continue be known for my valued contributions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/beingthere09mar182v0-180309210323-thumbnail.jpg?width=120&height=120&fit=bounds" /> After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... then all I had to do was to continue be known for my valued contributions.

Being In-The-Room from Ian Phillips

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0 Staying In The Room 12feb18 /slideshow/staying-in-the-room-12feb18/87736853 beingthere12feb181v0s-180210143625
After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... all I had to do was to continue be known for my valued contributions.]]>
After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... all I had to do was to continue be known for my valued contributions.]]> Sat, 10 Feb 2018 14:36:25 GMT /slideshow/staying-in-the-room-12feb18/87736853 IanPhillips1@slideshare.net(IanPhillips1) Staying In The Room 12feb18 IanPhillips1 After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... all I had to do was to continue be known for my valued contributions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/beingthere12feb181v0s-180210143625-thumbnail.jpg?width=120&height=120&fit=bounds" /> After 54 yrs in the Electronics Industry I retired in 2016. For most of that time I was working as an Electronic Design Engineer against the backdrop of Moore's Law; which drove the fast evolution of Electronics, and by stages delivered the Intelligent Electronic Systems that pervade all aspects of our lives today. I employed a room-based model for my career plan; keep getting invited to the 'rooms' where decisions are made ... all I had to do was to continue be known for my valued contributions.

Staying In The Room 12feb18 from Ian Phillips

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0 They're Not Making Smaller Atoms /slideshow/theyre-not-making-smaller-atoms/81585311 smalleratoms1nov173v1-171104092542
In the 70yrs since transistor action was discovered, the industry motivated by the commercial opportunity that it presents, has created small and smaller transistors, and the methodology to connect them and utilise them in ever more sophisticated products. But today, as the size of the transistor approaches the size of the atom itself, the possibilities of further 'shrinkage' are obviously limited. And will this mean the end for the regular increasing sophistication of the electronic system products that we have become used to.]]>
In the 70yrs since transistor action was discovered, the industry motivated by the commercial opportunity that it presents, has created small and smaller transistors, and the methodology to connect them and utilise them in ever more sophisticated products. But today, as the size of the transistor approaches the size of the atom itself, the possibilities of further 'shrinkage' are obviously limited. And will this mean the end for the regular increasing sophistication of the electronic system products that we have become used to.]]> Sat, 04 Nov 2017 09:25:42 GMT /slideshow/theyre-not-making-smaller-atoms/81585311 IanPhillips1@slideshare.net(IanPhillips1) They're Not Making Smaller Atoms IanPhillips1 In the 70yrs since transistor action was discovered, the industry motivated by the commercial opportunity that it presents, has created small and smaller transistors, and the methodology to connect them and utilise them in ever more sophisticated products. But today, as the size of the transistor approaches the size of the atom itself, the possibilities of further 'shrinkage' are obviously limited. And will this mean the end for the regular increasing sophistication of the electronic system products that we have become used to. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms1nov173v1-171104092542-thumbnail.jpg?width=120&height=120&fit=bounds" /> In the 70yrs since transistor action was discovered, the industry motivated by the commercial opportunity that it presents, has created small and smaller transistors, and the methodology to connect them and utilise them in ever more sophisticated products. But today, as the size of the transistor approaches the size of the atom itself, the possibilities of further 'shrinkage' are obviously limited. And will this mean the end for the regular increasing sophistication of the electronic system products that we have become used to.

They're Not Making Smaller Atoms from Ian Phillips

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0 HowTo Grown an ARM /IanPhillips1/howto-grown-an-arm growinganarmecrw1v131aug17s-170831092858
A bulleted history of the development of ARM; from the creation of Acorn Computers in 1978 to acquisition by SoftBank for £24b in 2016. Presented at the eFutures, Early Career Researchers Workshop at Uo.Cambridge on 31aug17.]]>
A bulleted history of the development of ARM; from the creation of Acorn Computers in 1978 to acquisition by SoftBank for £24b in 2016. Presented at the eFutures, Early Career Researchers Workshop at Uo.Cambridge on 31aug17.]]> Thu, 31 Aug 2017 09:28:58 GMT /IanPhillips1/howto-grown-an-arm IanPhillips1@slideshare.net(IanPhillips1) HowTo Grown an ARM IanPhillips1 A bulleted history of the development of ARM; from the creation of Acorn Computers in 1978 to acquisition by SoftBank for £24b in 2016. Presented at the eFutures, Early Career Researchers Workshop at Uo.Cambridge on 31aug17. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/growinganarmecrw1v131aug17s-170831092858-thumbnail.jpg?width=120&height=120&fit=bounds" /> A bulleted history of the development of ARM; from the creation of Acorn Computers in 1978 to acquisition by SoftBank for £24b in 2016. Presented at the eFutures, Early Career Researchers Workshop at Uo.Cambridge on 31aug17.

HowTo Grown an ARM from Ian Phillips

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0 Robots, Artificial Intelligence & Society /slideshow/robots-artificial-intelligence-society/77394148 robotsweekjun17ip1v0-170630083247
Short presentation at University of Plymouth as part of the UK's Robotics Week ]]>
Short presentation at University of Plymouth as part of the UK's Robotics Week ]]> Fri, 30 Jun 2017 08:32:47 GMT /slideshow/robots-artificial-intelligence-society/77394148 IanPhillips1@slideshare.net(IanPhillips1) Robots, Artificial Intelligence & Society IanPhillips1 Short presentation at University of Plymouth as part of the UK's Robotics Week <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/robotsweekjun17ip1v0-170630083247-thumbnail.jpg?width=120&height=120&fit=bounds" /> Short presentation at University of Plymouth as part of the UK's Robotics Week

Robots, Artificial Intelligence & Society from Ian Phillips

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0 ARM Milestones (1v2) @ImperialCol 19may17 /slideshow/arm-milestones-1v2-imperialcol-19may17/76140393 armmilestones1v2imp19may17s-170519222523
The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. Presented at Imperial College, London on 19may17.]]>
The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. Presented at Imperial College, London on 19may17.]]> Fri, 19 May 2017 22:25:23 GMT /slideshow/arm-milestones-1v2-imperialcol-19may17/76140393 IanPhillips1@slideshare.net(IanPhillips1) ARM Milestones (1v2) @ImperialCol 19may17 IanPhillips1 The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. Presented at Imperial College, London on 19may17. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/armmilestones1v2imp19may17s-170519222523-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. Presented at Imperial College, London on 19may17.

ARM Milestones (1v2) @ImperialCol 19may17 from Ian Phillips

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0 ARM milestones @UKDF 10may17 /slideshow/arm-milestones/75816365 armmilestones10may17s-170509134042
The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. ]]>
The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. ]]> Tue, 09 May 2017 13:40:42 GMT /slideshow/arm-milestones/75816365 IanPhillips1@slideshare.net(IanPhillips1) ARM milestones @UKDF 10may17 IanPhillips1 The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/armmilestones10may17s-170509134042-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Author's View of the Key Milestones in ARM's 26yr history; milestones that built 12 people in a Barn in Cambridge in 1990, into a £24.3b company by 2016.

ARM milestones @UKDF 10may17 from Ian Phillips

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0 Not Making Smaller Atoms @UoLiverpool /IanPhillips1/not-making-smaller-atoms smalleratoms15feb17-170221102935
As the size of transistors gets ever smaller the size of the atom is beginning to provide a limit to Moore's Law; the rule that for the last 50yrs has given us the ever smaller, more powerful and sophisticated electronic products we enjoy and have become dependent on. There are no smaller atoms ... So is this the end for technology's evolution? Is the future for technology products to be 'more of the same'? Or is there something we are not seeing?]]>
As the size of transistors gets ever smaller the size of the atom is beginning to provide a limit to Moore's Law; the rule that for the last 50yrs has given us the ever smaller, more powerful and sophisticated electronic products we enjoy and have become dependent on. There are no smaller atoms ... So is this the end for technology's evolution? Is the future for technology products to be 'more of the same'? Or is there something we are not seeing?]]> Tue, 21 Feb 2017 10:29:35 GMT /IanPhillips1/not-making-smaller-atoms IanPhillips1@slideshare.net(IanPhillips1) Not Making Smaller Atoms @UoLiverpool IanPhillips1 As the size of transistors gets ever smaller the size of the atom is beginning to provide a limit to Moore's Law; the rule that for the last 50yrs has given us the ever smaller, more powerful and sophisticated electronic products we enjoy and have become dependent on. There are no smaller atoms ... So is this the end for technology's evolution? Is the future for technology products to be 'more of the same'? Or is there something we are not seeing? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms15feb17-170221102935-thumbnail.jpg?width=120&height=120&fit=bounds" /> As the size of transistors gets ever smaller the size of the atom is beginning to provide a limit to Moore's Law; the rule that for the last 50yrs has given us the ever smaller, more powerful and sophisticated electronic products we enjoy and have become dependent on. There are no smaller atoms ... So is this the end for technology's evolution? Is the future for technology products to be 'more of the same'? Or is there something we are not seeing?

Not Making Smaller Atoms @UoLiverpool from Ian Phillips

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0 Not making Atoms Smaller @UoPortsmouth /slideshow/theyre-not-making-atoms-any-smaller/72085523 smalleratoms15feb17-170213115436
It is just 70yrs since the invention of the transistor; and just a few years later, the integrated circuit and the emergence of Moore's Law. This predicted ever increasing function density as transistor size decreased on an exponential law ... And for the last 50yr society has enjoyed through the ever increasing sophistication of what has become known as 'Technology Products'. But we know that all exponents have to end someday, and as current transistor sizes are getting close to that of the atom itself, we have to ask if that day imminent?]]>
It is just 70yrs since the invention of the transistor; and just a few years later, the integrated circuit and the emergence of Moore's Law. This predicted ever increasing function density as transistor size decreased on an exponential law ... And for the last 50yr society has enjoyed through the ever increasing sophistication of what has become known as 'Technology Products'. But we know that all exponents have to end someday, and as current transistor sizes are getting close to that of the atom itself, we have to ask if that day imminent?]]> Mon, 13 Feb 2017 11:54:35 GMT /slideshow/theyre-not-making-atoms-any-smaller/72085523 IanPhillips1@slideshare.net(IanPhillips1) Not making Atoms Smaller @UoPortsmouth IanPhillips1 It is just 70yrs since the invention of the transistor; and just a few years later, the integrated circuit and the emergence of Moore's Law. This predicted ever increasing function density as transistor size decreased on an exponential law ... And for the last 50yr society has enjoyed through the ever increasing sophistication of what has become known as 'Technology Products'. But we know that all exponents have to end someday, and as current transistor sizes are getting close to that of the atom itself, we have to ask if that day imminent? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms15feb17-170213115436-thumbnail.jpg?width=120&height=120&fit=bounds" /> It is just 70yrs since the invention of the transistor; and just a few years later, the integrated circuit and the emergence of Moore's Law. This predicted ever increasing function density as transistor size decreased on an exponential law ... And for the last 50yr society has enjoyed through the ever increasing sophistication of what has become known as 'Technology Products'. But we know that all exponents have to end someday, and as current transistor sizes are getting close to that of the atom itself, we have to ask if that day imminent?

Not making Atoms Smaller @UoPortsmouth from Ian Phillips

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0 Taken By The Horns @UoPlymouth /slideshow/horns-16dec16-1v0c/70169238 horns16dec161v0c-161215120217
A Retrospective of being an (Electronic) Design Engineer over the last 52 years of technology change. With observations about the transferrable lessons for todays aspiring engineers.]]>
A Retrospective of being an (Electronic) Design Engineer over the last 52 years of technology change. With observations about the transferrable lessons for todays aspiring engineers.]]> Thu, 15 Dec 2016 12:02:16 GMT /slideshow/horns-16dec16-1v0c/70169238 IanPhillips1@slideshare.net(IanPhillips1) Taken By The Horns @UoPlymouth IanPhillips1 A Retrospective of being an (Electronic) Design Engineer over the last 52 years of technology change. With observations about the transferrable lessons for todays aspiring engineers. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/horns16dec161v0c-161215120217-thumbnail.jpg?width=120&height=120&fit=bounds" /> A Retrospective of being an (Electronic) Design Engineer over the last 52 years of technology change. With observations about the transferrable lessons for todays aspiring engineers.

Taken By The Horns @UoPlymouth from Ian Phillips

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0 Taken By The Horns @ARM /slideshow/taken-by-the-horns/69461896 life23nov161v0s-161123160717
After 52yrs of being a Design Engineer, I officially leave ARM and Retire on 30nov16. You can't reach a milestone like retirement without thinking about your life as a design engineer, and how technology has changed during that time ... And if what I did could be useful lessons in any way to those that follow in my footsteps.]]>
After 52yrs of being a Design Engineer, I officially leave ARM and Retire on 30nov16. You can't reach a milestone like retirement without thinking about your life as a design engineer, and how technology has changed during that time ... And if what I did could be useful lessons in any way to those that follow in my footsteps.]]> Wed, 23 Nov 2016 16:07:17 GMT /slideshow/taken-by-the-horns/69461896 IanPhillips1@slideshare.net(IanPhillips1) Taken By The Horns @ARM IanPhillips1 After 52yrs of being a Design Engineer, I officially leave ARM and Retire on 30nov16. You can't reach a milestone like retirement without thinking about your life as a design engineer, and how technology has changed during that time ... And if what I did could be useful lessons in any way to those that follow in my footsteps. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/life23nov161v0s-161123160717-thumbnail.jpg?width=120&height=120&fit=bounds" /> After 52yrs of being a Design Engineer, I officially leave ARM and Retire on 30nov16. You can't reach a milestone like retirement without thinking about your life as a design engineer, and how technology has changed during that time ... And if what I did could be useful lessons in any way to those that follow in my footsteps.

Taken By The Horns @ARM from Ian Phillips

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0 Carving the Perfect Design Engineer /slideshow/carving-the-perfect-design-engineer/64171614 carving19jul161v0-160719163523
LnL and Discussion about the skills an (Electronic) Design Engineer needs to have to survive (or excel) a working-life in industry. An informal presentation and discussion around a (slightly modified) slide-set first presented at EWME'16 in May16 at UoSouthampton]]>
LnL and Discussion about the skills an (Electronic) Design Engineer needs to have to survive (or excel) a working-life in industry. An informal presentation and discussion around a (slightly modified) slide-set first presented at EWME'16 in May16 at UoSouthampton]]> Tue, 19 Jul 2016 16:35:23 GMT /slideshow/carving-the-perfect-design-engineer/64171614 IanPhillips1@slideshare.net(IanPhillips1) Carving the Perfect Design Engineer IanPhillips1 LnL and Discussion about the skills an (Electronic) Design Engineer needs to have to survive (or excel) a working-life in industry. An informal presentation and discussion around a (slightly modified) slide-set first presented at EWME'16 in May16 at UoSouthampton <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/carving19jul161v0-160719163523-thumbnail.jpg?width=120&height=120&fit=bounds" /> LnL and Discussion about the skills an (Electronic) Design Engineer needs to have to survive (or excel) a working-life in industry. An informal presentation and discussion around a (slightly modified) slide-set first presented at EWME'16 in May16 at UoSouthampton

Carving the Perfect Design Engineer from Ian Phillips

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0 Carving the Perfect Engineer (EWME'16, 11may16) /IanPhillips1/carving-the-perfect-engineer carving11may161v0-160507220144
Invited Keynote talk at the 11th European Workshop on Microelectronic Education (EWME'16), held in Southampton, uk. What education does a Microelectronic Student need in 2016; to carry him/her through their professional lives as an Engineer?]]>
Invited Keynote talk at the 11th European Workshop on Microelectronic Education (EWME'16), held in Southampton, uk. What education does a Microelectronic Student need in 2016; to carry him/her through their professional lives as an Engineer?]]> Sat, 07 May 2016 22:01:44 GMT /IanPhillips1/carving-the-perfect-engineer IanPhillips1@slideshare.net(IanPhillips1) Carving the Perfect Engineer (EWME'16, 11may16) IanPhillips1 Invited Keynote talk at the 11th European Workshop on Microelectronic Education (EWME'16), held in Southampton, uk. What education does a Microelectronic Student need in 2016; to carry him/her through their professional lives as an Engineer? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/carving11may161v0-160507220144-thumbnail.jpg?width=120&height=120&fit=bounds" /> Invited Keynote talk at the 11th European Workshop on Microelectronic Education (EWME'16), held in Southampton, uk. What education does a Microelectronic Student need in 2016; to carry him/her through their professional lives as an Engineer?

Carving the Perfect Engineer (EWME'16, 11may16) from Ian Phillips

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0 https://cdn.slidesharecdn.com/profile-photo-IanPhillips1-48x48.jpg?cb=1639137487 Engineer, Designer, Electronic Systems, Embedded Systems, Real-Time, Philosopher, Consultant, Yorkshireman. "All opinions and postings on this site are my own and do not represent ARM's actual position, strategy or opinion". ianp24.blogspot.co.uk https://cdn.slidesharecdn.com/ss_thumbnails/ajourney6dec21-211210122055-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/a-journey-6dec21/250817581 A Journey Not A Desti... https://cdn.slidesharecdn.com/ss_thumbnails/smalleratomsjan21s-210309114456-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/theyre-not-making-smaller-atoms-v2/244067040 They're Not Making Sma... https://cdn.slidesharecdn.com/ss_thumbnails/smalleratoms5mar20c-200303114059-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/theyre-not-making-smaller-atoms-229589805/229589805 They're Not Making Sma...