#macrogroup
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zuko-kuko · 7 months ago
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I absolutely understand what you mean, and I do feel really grateful that you took your time to explain your perspective about my pov, and correct what needed to be corrected. Especially because since I never really dared to try to say it out loud, never got the opportunity to receive any sort of feedback.
Now I’m glad that I shared it because I see what is wrong with it and thanks to you now I can give it another round of thinking.
I struggle a lot to find the right words or be less “harsh” with what I say (this particular take would never be a pretty thing to say tho. Trying to do that I feel it would have been worse).
I think you are right in practically all of what you said, so i got nothing to add there and I feel that especially your last statement condensed really well one of the points i tried to make (and kinda failed? Lol). Although I think I could stop at “Humans are sexual”, to just say that we fit into that category because we need of another individual to reproduce and we can’t just duplicate ourselves like bacteria does 🥹
Maybe I should have said something more like “I got this weird thought inside my head and need help to clear it out” instead of what I said in the beginning to clarify my intentions.
Again, I don’t see any of these variations as something wrong that need to be fixed or that make anyone less human (I’m a bisexual myself). But I got that conflicted and old thought stuck in my head that just couldn’t evolve isolated.
Now, I think that part of my conflict is that my brain doesn’t give a negative connotation to the “condition” meaning. It's like it dissociates from all of the “judgemental” attributions and keeps the most literal meaning of the word, which contributes to me sounding insensitive.
I swear that the relationship between pathology and condition never crossed my mind because I was treating it like a superficial term to refer to “the situation”, probably because I also don’t know many other ways to refer to it.
I also stand the position that, since a lot of “mental conditions” (because I can’t think of another synonym i’m sorry is 1 am) are a part of a lot of individuals' identities, not all of them are necessarily pathologic and should be taken out of that macrogroup (and I'm consequence, not be stigmatized or be seen as wrong) Maybe that was the word I was looking for yesterday.
Anyway, I deeply appreciate your feedback about it, and I’ll be having what you said in mind.
Thank you for taking me out of the bubble 🥺❤️
fun fact (not fun at all fact actually) :
aromanticism and asexuality are still treated as issues to be fixed in most therapy settings, at least in the western psychiatric institution. i cannot fucking mention my aromanticism or asexuality to a therapist or it’ll immediately become their primary concern and goal to fix. whether or not i have a partner/am trying to have a partner is actively being used as an indicator of my wellness, regardless of if i WANT one. i cannot have access to needed mental health ressources because of fear of conversion therapy. aro and/or ace conversion therapy is the norm in most psychiatric institutions and we are getting told by the rest of the queer community that our oppression isnt real and that there is no link between our struggles and theirs.
more thoughts on the medicalization of asexuality and/or aromanticism
answers to common notes
aplatonic perspective
ressources
background information
tips to avoid aro and/or ace conversion therapy
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macro-group · 5 years ago
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Ускорительная плата Alveo U280 от Xilinx
Компания Xilinx начала производство платы-ускорителя Alveo U280. От ускорителей U200/U250, выпущенных ране, её отличает наличие 8 Гбайт памяти HBM2 с суммарной пропускной способностью 460 GB/s, что является своеобразным рекордом по пропускной способности. Таким образом, семейство Alveo на сегодняшний момент состоит уже из трёх типов ускорительных плат.
Ускорительная карта Xilinx Alveo U280 предназначена для решения задач современных центров обработки данных. Как и предыдущие платы серии Alveo, ускоритель U280 выпускается в вариантах с активным и пассивным охлаждением и способен работать в круглосуточном режиме 24/7.
При работе с базами данных скорость работы U280 достигает 1200 миллионов запросов в секунду. При этом обеспечивается уменьшение времени отклика в 4 раза, по сравнению с использованием процессора. Ускоритель Alveo U280 так же отлично подходит для решения задач искусственного интеллекта. Например, на задаче перевода текста U280 показывает производительность больше 10 000 символов/секунду при задержке 6 мс. Подробности в статье Supercharge Your AI and Database Applications with Xilinx's HBM-Enabled UltraScale+ Devices Featuring Samsung HBM2.
Для программирования Alveo U280 используется среда SDAccel.
Подробнее ознакомиться с новой платой и её характ��ристиками можно на страни��е продукта по ссылке https://www.xilinx.com/products/boards-and-kits/alveo/u280.html
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materialsworld · 5 years ago
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Materials World’s top feature of 2019
As 2019 is drawing to a close, the Materials World team wanted to highlight a couple of stories to end the year on a high note. On Wednesday we shared the news story that got the most clicks on our website in 2019.  Today, we are sharing the top feature. We hope you enjoy and Merry Christmas from the editorial team. 
15 UNDER 30
By: Idha Valeur 
IOM3 is looking to the future and celebrating young talent and ambition. Idha Valeur talks to the ones to watch in STEM.
Kyle Saltmarsh Age: 27 Job: Robotics Engineer at Woodside Energy. Education: PhD Engineering in Submarine Vibration and Acoustics, BSc in Physics and Applied Mathematics, BME (Honours). Current project: Deployment of robotic technology onto Woodside’s oil and gas plant for surveillance, and performing tasks through robot manipulation. Achievements: Best honours thesis, several hackathon wins, top IBM 2018 graduate in Australia/New Zealand, 2018 Young Persons’ World Lecture Competition Winner, world’s largest bungee jumper, blogger and hosting a podcast to inspire people in technology. Ultimate goal: To positively impact the world through the power of technology.
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Kyle Saltmarsh     Image credit: Brent Campbell 
Jennie Palmer Age: 26 Job: Research Engineer. Education: Undertaking an EngD in Structural Metals for Gas Turbine Applications, BEng in Aerospace Engineering, with a year in industry, Swansea University. Current project: I am researching the development of bespoke test facilities and fundamental understanding of thermo-mechanical fatigue crack growth behaviour in titanium alloys. Achievements: Graduating with a BEng in Aerospace Engineering with First-Class Honours, presenting my research at national and international conferences, having research published in an internationally recognised journal and a Green Belt Certificate in Lean Six Sigma. Ultimate goal: To become a well-established, technical expert in my engineering field.
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Jennie Palmer     Image credit: Jemima Bond 
Ilija Rašović Age: 27 Job: Lecturer at University of Birmingham Education: MEng in Materials Science at Corpus Christi College, Oxford. DPhil in Materials at St Cross College, Oxford. Current project: The use of fullerenes — nanometre-sized balls of carbon — in biomedical applications. One of the methods I have devised, to make them soluble in water, helps in the formation of large self-assembled structures that hold great promise as multi-modal drug delivery vehicles. Achievements: The IOM3 international Literature Review Prize in 2016. Final of the IOM3 Young Persons’ World Lecture Competition in 2017. I joined the P1 Graphene Solutions as an advanced materials engineer and became a lecturer at the University of Birmingham. In 2019, I joined IOM3’s Younger Members’ Committee. Ultimate goal: To make a contribution to the wide deployment of transformative nanomedicine in a clinical setting within my lifetime. My broader vision is to continue to champion materials science and make more accessible the obfuscated world of academic research.
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Ilija Rašović     
Amanda Field Age: 25 Job: Development Engineer. Education: BEng Materials Science and Technology, University of Birmingham. Current project: Trying to finish my PhD on additive manufacturing of tungsten for nuclear fusion reactors. It’s challenging but worthwhile because the success of nuclear fusion would go a long way to solving the energy crisis. I’m working in additive manufacturing. Achievements: I have presented my work at international conferences. I was involved with an experimental parabolic flight campaign for the European Space Agency where we used a demonstrator device to 3D print metal in zero gravity. I came second in the IOM3 Young Persons Lecture Competition. Ultimate Goal: To keep working in additive manufacturing. I’d like to stay in R&D as you get such variety in your role and you have the potential to make significant improvements to a product or a technology, or design new ones yourself.
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Amanda Field    Image credit: Luke Carter 
Jack Saunders Age: 25 Job: PhD Student in Materials Chemistry. Education: MChem with a year in industry, University of Manchester. Undertaking a PhD in Materials Chemistry, University of Manchester, in collaboration with AkzoNobel. Current project: To analyse the impact of different polymers on the corrosion protection afforded by emulsion paints. I aim to achieve this by synthesising and testing polymer’s corrosion performance. This is to better understand how polymer chemistry can affect the corrosion protection offered by the dried paint. Achievements: A First Class Master’s degree in chemistry. My PhD at the School of Materials at The University of Manchester. Awarded the President’s Doctoral Scholar Award. Presented my work at conferences such as the RSC’s MacroGroup YRM, Dublin, 2018. Won the regional Young Persons’ Lecture Competition this year. Ultimate goal: To develop my research and management skills in order to have my own research group in the field of polymer chemistry and colloid science.
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Jack Saunders    Image credit: University of Manchester  Megan McGregor Age: 25 Job: PhD Candidate at the Department of Materials Science & Metallurgy, University of Cambridge. Education: MSci in Natural Sciences, University of Cambridge, specialising in Materials Science. Current project: A PhD project investigating a new intermetallic alloy for commercial gas turbine engines. Specifically, trying to develop a novel coating material required to attach abrasives onto the end of rotating turbine blades, in pursuit of a more efficient sealing system. Achievements: I enjoy teaching in the department, and was recently awarded the Departmental Demonstrator Prize. I talked at the Cambridge Science Festival and the inaugural Cambridge Soapbox Science event. I will be representing the South Eastern Region in the final of the IOM3 Young Persons’ Lecture Competition this year, selected for an RCUK Public Policy Internship at the Government Office for Science in 2018, where I got to contribute to government policy. Ultimate goal: To see the material I am working on make it into a commercial gas turbine engine. I want to take my expertise in this area into industry, and be able to contribute to the development of the hybrid-electric aircraft sector.
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Megan McGregor    Image credit: Andrew Jeskins 
Abigail Georgia Robinson Age: 22 Job: Geology student. Education: MGeol in Earth and Environmental Sciences, University of St Andrews, graduating in 2020. Current project: I will co-lead an expedition to the Lofdal Complex, Namibia, which hosts a suite of carbonatitic and silicic igneous rocks, some of which are enriched in heavy rare earth elements. I aim to integrate geological field data with geochemical and isotopic datasets to model the petrogenesis of the scientifically interesting igneous rocks. Achievements: I was awarded the prestigious Laidlaw Scholarship in Research and Leadership in 2018. This supported my field campaign in Armenia, to investigate the interplay between climate change, hydrology and medieval irrigation systems. I did a research placement at the Scottish Universities Environmental Research Centre where I learned to code in Python and used this to statistically investigate the geographical origin of lunar meteorites across the lunar surface. This work was included in Dr Marissa Tremblay’s published abstract and presentation at the 2019 Lunar and Planetary Science Conference, USA. Ultimate goal: I plan to embark on a PhD on the tectonically imposed planet-wide cycling of the volatile elements. I plan to be an active communicator promoting an understanding of geoscience and the global scale problems that we, the geoscientists, can work to solve.
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Abigail Robinson      Image credit: Evan Margerum 
Federica Rosaria Lisa Age: 24 Job: Technical Graduate at British Steel. Education: MChem Chemistry with Forensic Science with a year in industry, University of Leicester. Current project: A variety of research and development projects – one on understanding and reducing the factors that influence power and electrode consumption at the ladle arc furnaces in the secondary steelmaking process. Achievements: Graduated with a First Class Honours and secured a 12-month industrial placement and a place on a graduate programme. I succeeded in my secondary school exams after moving to a new continent and starting International School. Ultimate goal: To work for a sustainable discovery/development that will improve lives and I would like to lead a company. I would also like to promote the importance of education, support developing countries in the construction of more schools and strengthen the educational system.
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Frederica Lisa    Image credit: Johnny Gallagher  Daniel Everington Age: 26 Job: Materials Technologist – Surface Engineering. Education: MEng Aerospace Engineering with a year in industry, University of Sheffield. Current project: Surface engineering at Rolls-Royce. I’m involved with different projects across the engine, including compressor sealing systems, hot end environmental protection and anti-seize coatings. Achievements: Developed a novel method to flow test ceramic filters used in the investment casting process. The technique contributed to a 3% improvement in casting yield and the reduced variation helps lower the amount of metal. Patents may be filed on the work. Ultimate goal: I’d like to work with academia to co-develop novel coatings/surface treatments. I enjoy the challenges that come with working on new technology as the answers can’t simply be found in a textbook.
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Daniel Everington     Image credit: Alistair Coast-Smith 
Louise Gale Age: 28 Job: Materials Engineer at Rolls-Royce Plc. Education: MSci & MA in Natural Sciences, specialising in Materials Science, University of Cambridge. Current project: The development of ceramic matrix composites for introduction into aerospace gas turbine engines. My responsibilities include running mechanical testing programmes, supervising work at our university partners as well as the analysis and fractography of tested samples to elucidate damage mechanisms. Achievements: Completing the Rolls-Royce Graduate Scheme, including obtaining funding for an international placement in the Materials Testing Department in Berlin. I became Technical Lead of a £2.5mln project which was part of a government-funded programme to develop SiC/SiC ceramic matrix composites. I developed the £7mln, three-year materials development component to the follow on project that was approved in late 2017. Ultimate goal: To become an expert on ceramic and composite materials systems.
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Louise Gale      Image credit: Stephen Gale 
James Grant Age: 24 Job: EngD student with TATA Steel and M2A, Materials and Manufacturing Academy. Education: School of Physics and Astronomy, Cardiff University, College of Engineering, Swansea University. Current project: Development of novel coating solutions for the improvement of pre/post heat treatment of carbon steel conveyance tubes. My project aims to reduce high-temperature oxidation caused by the normalising process. Achievements: I developed a novel anodisation system for fabricating alumina masks in the molecular beam epitaxy application. In addition to this, my placement with Merck successfully optimised electrophoretic fluids to further enhance the E-ink display technology. I’ve been competing in the 2019 IOM3 Young Persons Lecture Competition. Having won the SWMA heat and the South West Regional, presenting at the national final in May. Ultimate goal: To educate and encourage the next generation of students to take up STEM subjects. I hope I can engage and excite a younger audience about materials science and demonstrate the opportunities available in engineering.
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James Grant      Image credit: James Grant 
Vidya Chamundeswari Narasimhan Age: 28 years Job: Post-doctoral Research Fellow Department of Materials Science and Engineering, NTU. Education: PhD in Materials Engineering. Current project: Developing responsive nasogastric tubes for the elderly and using nature-derived biopolymers for biomedical applications. Achievements: Young Scientist Award conferred by VIWA in India, Title Winner of the IOM3 Young Persons’ World Lecture Competition 2017, Women in Engineering Travel Grant in 2018, Chair of the Young Scientists Forum at the European Materials Research Society conference in Poland 2018. Ultimate goal: To lead and manage a diverse team, foster interdisciplinary collaboration and offer R&D support for cutting edge research in the healthcare sector. I also want to contribute significantly towards mentoring the next generation of young girls towards pursuing exciting careers in STEM fields.
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Vidya Chamundeswari     Image credit: Dr Rohit Satish  Frederick Cooper Age: 28 Job: Research Engineer and PhD student. Education: BEng with Honours, Swansea University. Current project: Microstructural and mechanical characterisation of flow formed F1E – a novel, maraging steel. Achievements: Used flow form to develop materials for detailed metallographic, micro-textural, and mechanical assessment. I run two small businesses, have an Associate Diploma from the National College of Music, and an Associate Fellowship of the Higher Education Academy and was appointed as a Yeoman of the Worshipful Company of Tin Plate Workers. Ultimate goal: To complete my current project and transfer a comprehensive mechanical property database detailing static and fatigue performance to a major engineering sponsor – to enable novel component manufacture. Further, I would like to use my experience to develop a career in public engagement or education.
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Frederick Cooper    Image credit: Lauren Ednie Photography 
Robert Hoye Age: 28 Job: Royal Academy of Engineering Research Fellow. Education: PhD, Cambridge University, BE(Hons). Current project: I am looking at two areas that could accelerate the scale of photovoltaics. This makes an attractive technology for producing clean energy, especially in remote regions. Achievements: Developed a recombination contact to couple a metal-halide perovskite top-cell with an n-type silicon bottom cell, which lead to new design rules to identify promising classes of materials that could tolerate defects, and an all-inorganic device structure that led to 80% external quantum efficiency in solar cells. This went on display in the Deutsches Hygiene-Museum in Dresden, Germany. 2018 Young Engineer of the Year Award by the Royal Academy of Engineering, which also awarded me £500,000 to start an independent group at the University of Cambridge. European Forbes 30 under 30 list. Ultimate goal: To create new classes of defect-tolerant semiconductors that can be used as low-cost and efficient top-cells in tandem with silicon.
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Robert Hoye      Image credit: Zoe Chung 
Matthew Wadge Age: 24 Job: PhD Researcher. Education: BSc(Hons) Biomedical Materials Science & PhD (ongoing), University Of Nottingham. Current project: Exploring novel formation and ion-exchange reactions of titanate surfaces for biomedical applications. Achievements: Achieved eight awards during my undergraduate degree including the Best Student Prize, Best Project Prize, and The Armourers and Brasiers’ Best Student Prize for achieving the highest project mark within the faculty. I have since won the Armourers and Brasiers’/TWI Best BSc/BEng Student of the Year Award, Best Oral Presentation Prize from the UK Society for Biomaterials Conference in 2018. Published my first journal paper during the first year of my PhD. I am one of the Nottingham coordinators for this year’s Pint of Science festival. Ultimate goal: To try and improve a patient’s quality of life, from improving fixation of hip stems for improved longevity, through to antibacterial surfaces for minimising infections. I aim to continue on into academia post PhD to share my experiences, and hopefully train the next generation of bioengineers and biomaterial scientists.
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Matthew Wadge     Image credit: Matthew James 
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king-sassy08 · 3 years ago
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I have a discussion board due tomorrow for my texas history class and I don't want to do it so instead I'm researching Aztec gods and what macrogroup of indigenous mexican I could be from on my dad's side. Things going well. I know about Xolotl the part dog God who was patron of twins, misfortune, and deformities. This guy is sick. Cried so hard his eyes melted out of his head when he heard he was going to be sacrificed, then turned himself into an axolotl and a maguey but they caught him anyways
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fitnessfoodieposts · 6 years ago
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Dinner from tonight
dEATS:
Trader Joe’s frozen turkey burger
Zucchini noodles
Peppers
Homemade sweet potato fries with BBQ Sauce
Trader Joe’s Spinach and kale dip
I cooked the turkey burger per package instructions. For the sweet potato fries, I sliced up 1.5 sweet potatoes. Then I drizzled them with olive oil, and then I tossed them with cinnamon and garlic salt. I cooked them in my air fryer for 15 minutes at 400 degrees. They’re not burnt I promise , no matter what I do they always come out brown ( these can also be made in a regular oven) The veggies were frozen. I cooked them mainly in the microwave, and then I finished them off in a pan and threw in everything seasoning ( I’m obssessed). This dinner may seem complex, but I promise it was a breeze.
This dinner hits all the macronutrients. There’s protein from the burger , carbs from the potatoes and veggies , and fat from the burger, olive oil, and deep. There are also micronutrients from the meal as well! Meals should include all the macro groups and be micronutrient dense. But most importantly it was freaking delicious. Food should be nutritious and delicious!
Do you want me to make a post breaking down the macrogroups? Let me know!
Xoxo,
Devon
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