Tracy Leparulo Founder and CEO at Untraceable, is an early crypto investor and Blockchain Futurist, she founded Untraceable in 2013 to help build and grow the crypto community. Untraceable is the first event management and marketing agency within the blockchain and cryptocurrency community in Canada. We provide a full suite of services for events including logistics, marketing, and sponsorship. Our specialty is designing cutting-edge events by seamlessly integrating crypto ticketing, event apps, token creation, and innovative tech solutions to fit your needs. Over the past 5 years, Untraceable has organized hundreds of events from the first Bitcoin Expo in Canada to the first Ethereum hackathon to ETHWaterloo (the world’s largest Ethereum hackathon). Whether you’re launching a blockchain company or planning a corporate conference, the Untraceable team will work with you to create an immersive and unforgettable event.

Jamie Burke, Founder, and CEO of Outlier Ventures provides an overview of bitcoin and blockchain and the ways that companies can aggressively push their businesses forward with emerging technologies. Burke is a pioneer in the blockchain industry. As Europe's 1st Web 3.0 blockchain venture builder, he and his team have pushed forward on utilizing blockchain as a significant key to emerging trends (AI, Mixed Reality, IoT, and Autonomous Robotics) that will play key roles in multiple industries such as Industry 4.0, eGovt, Health, Mobility, and Smart Cities. Burke talks about his background in blockchain and cryptocurrency. He explains that he wanted to launch Outlier Ventures as a means to deal with the technology and tools that would be fundamentally changing the web and how it is structured, and subsequently society as a whole. Discovering bitcoin, he decided to immerse himself in the space, studying the technology, rooting out the problems, and identifying areas that could be improved upon. Burke discusses the disconnect with proprietary business models building on open source technologies, meaning that even if an entity could create something truly unique, there was the problem of someone else potentially coming in and copying what you’ve created, and doing it at a lower price even. The technology guru explains the many ways that Outlier Ventures can assist companies, as an advisor or board member, helping them find the most efficient and aggressive ways to utilize emerging technologies. As he discusses, Outlier Ventures can help them design their token economy or assist them in designing their governance model. He explains how their staff of analysts really dig into the technology and the technology layers to maximize a company’s market-forward position. Continuing, Burke talks about how Outlier Ventures invests in projects that reinforce their previous investments, which is a markedly different approach than what is considered a traditional VC path in which investments are diversified to offset risk. Burke is a regular speaker at various conferences around the globe, and throughout his career he has amassed a strong network of significant corporate partners, investors, and government agencies as well, working together to build better tech for the benefit of many industries.

MatterHackers is one of the largest and most trusted online resources for materials, boasting over 350 standard, exotic and exclusive styles of filament. They distribute over 40 types of 3D Printers, with free shipping and lifetime support. From software, to supplies, to printers, they are working to enable people to turn the ideas they have into the things they use. They provide software, MatterControl is an open source desktop 3D printing software platform, created by MatterHackers and compatible with most 3D printers. Download for free at www.mattercontrol.com.

Ronald T. Merrill, Professor Emeritus of Earth and Space Sciences at the University of Washington, and author of, Our Magnetic Earth: The Science of Geomagnetism, engages in a lively discussion about multiple broad concepts of science, the Earth’s magnetic field, and geomagnetism. Podcast Points: What is magnetism? What has modern science learned from past experiments in physics? How do animals use magnetism to guide them? Professor Merrill discusses magnetism, which as he states is a broad field that covers a lot of information, from physics to geology. Magnetism, simply defined, is a class of physical experiences/occurrences that are mediated by magnetic fields. The professor discusses his areas of interest within the general topic of magnetism, such as the Earth’s magnetic field, its properties, what creates it, etc. Professor Merrill discusses the basic properties of magnetism. He explains how animals in nature sense, and use, magnetic fields. He provides examples of various animals and how they use magnetic fields, such as salmon, birds, etc. Continuing, the professor discusses the strength of magnetic fields, and how animals use tools for navigation, smell being one, and magnetic fields being another. He provides some examples of single-cell organisms and how they use magnetic fields to find their ideal environments to live and thrive.  Going deeper, Professor Merrill talks about other species, and their use of magnetic fields, from bats to mole rats. In regard to humans, some scientists believe that we may have a magnetic sense, although Professor Merrill is quite skeptical at this point. He talks about some Cal Tech experiments that have contributed to further understanding of magnetic fields, and the possibility of whether humans have a magnetic sense. Professor Merrill states that magnetic fields can reverse periodically, and he explains varied conditions that can produce irregularity. Professor Merrill discusses the Earth’s core and he provides information on electrical currents in relation to magnetic fields.  Wrapping up, the scientific professor provides his thoughts on some historical physics as it relates to magnetism, citing the work of William Gilbert, “the father of experimental physics.”

Dr. Sivan describes some the basics and the intricacies of quantum computing. When you listen, you'll learn about the difference between classical computers and quantum processors, the weaknesses involved in the quantum system such as the paradox between necessary binary isolations and interaction, and how these systems may impact the future in technologies such as machine learning and AI. Dr. Itamar Sivan is the co-founder of Quantum Machines. His background includes extensive studies in quantum technologies and quantum-control systems. He obtained a master's degree from Oxford University in quantum optics and the physics of cold atoms and his PhD was on quantum physics and quantum computing combined with an entrepreneurship angle.  This discussion explores much of his present work as well as the tension between what quantum technologies are capable of accomplishing and what limits come in the delicate nature of the quantum-control systems.  His company, Quantum Machines or QM, develops the quantum orchestration platform. In other words, they develop hardware and software systems that run complex algorithms on quantum processors. He explains that technology can be leveraged into running algorithms into pretty much any quantum processor. He also discusses the advances and challenges as the exponential power of the quantum system is not fully utilized.  He comments that the race for technology for the quantum world involves expanding processors to be bigger and more stable. Finally, he explains what these advances may impact and how everyday life might be affected.  For more, see his company's website: https://www.quantum-machines.co/

Mechanical engineering professor Dr. Adrian Bejan explains how his new book takes on the hierarchy system of natural movement. He explains the gist of this theory by discussing how from an engineering point of view, evolution is possible because movement is possible, why this freedom of movement makes change possible, and how this freedom of movement and change means hierarchy is unavoidable. In this podcast Dr. Adrian Bejan, distinguished professor at Duke University and author of more than thirty books, discusses the ideas that propel his new book, Freedom and Evolution: Hierarchy in Nature, Society and Science.  He explains connections between different disciplines to give a fuller picture of his idea. For example, he discusses the impact of society on science such that in technology, we talk in terms of evolution toward greater economy, easier life, and greater health. He asserts that these improvements and directions are due to changes that are possible because these moving parts have the freedom to change. He provides one example central to the approach in his new book: he tells listeners to think of evolution as a universal phenomenon and evokes an aerial view of the Mississippi river basin. He discusses the constant readjustment of the small tributaries due to force and movement. Essential however and evocative of the impact of society on science is the hierarchical nature of these relationships.  Ultimately what you see, he says, is the cohabiting of the few large with the many small: the big channel is not exploiting the many small, but rather the hierarchy works together in stasis or harmony. For more information, find his new book , Freedom and Evolution: Hierarchy in Nature, Society and Science for sale through most booksellers including Amazon and see his page on the Duke web site: https://mems.duke.edu/faculty/adrian-bejan

Denise Ruffner, Chief Business Officer, Cambridge Quantum Computing, discusses quantum computing. Denise Ruffner, as Chief Business Officer at Cambridge Quantum Computing, is a valuable member of the company’s executive leadership. Ruffner coordinates and oversees Cambridge Quantum Computing’s business development activities that build upon and support their active growth agenda, client development, corporate strategy, and important relationships. Denise earned her master’s degree in Neurobiology and Molecular Biology from the University of Pittsburgh. Podcast Points: What is quantum computing? As technology develops, so do ways to hack into environments. What can be done? An overview of encryption Ruffner discusses the details of her company, Cambridge Quantum Computing, and what quantum computing really is all about. She talks about the development of software for quantum computers, and the security devices they develop that can protect against quantum computers potentially breaking security environments. She explains the power of these quantum computer juggernauts, and how they will have the power to break through standard computer encryption safety walls. So companies that hold sensitive data need to start thinking about how they can protect confidential data. Ruffner explains their projects in development that use quantum physics to create non-hackable environments.  Expanding on her discussion, Ruffner talks about the scientists and teams involved in various projects in quantum finance and more at Cambridge Quantum Computing. She provides an overview of some of the projects and products she finds extremely interesting. She discusses t|ket⟩™ which is their software package that allows you to write quantum algorithms on top of it, and ultimately enables users to move their software and run it on different devices. As she states, there is a race in the quantum computer industry, and operating software can be quite varied, thus t|ket⟩™ provides a platform to move software and run algorithms on different devices seamlessly. t|ket⟩™ translates machine independent algorithms into truly executable circuits, and thereby optimizes for physical qubit layout, all the while reducing the total number of required operations. Continuing, Ruffner discusses quantum volume and the details of it. Wrapping up, Ruffner discusses some of the scientific problems that can be addressed with quantum computing, and the complex computational problems that still cannot be solved even with supercomputers, and how quantum computing can help.

Guillermo A. Cecchi, Research Staff Member, Computational Neuroscience at IBM, discusses his background and the current state of computational neuroscience research. Podcast Points: What can we learn from neuroimaging? Is it possible to predict psychotic outbreaks? An update on new ALS research   Dr. Cecchi has an extensive background in Physics (MSc, University of La Plata, Argentina); in Physics and Biology (PhD, The Rockefeller University); as well as in Imaging in Psychiatry (Postdoctoral Fellow, Cornell University). In this podcast, Cecchi discusses much of his current research. Dr. Cecchi has broken ground in the use of a computational linguistics approach to assess psychiatric conditions. He provides an overview of his work in computational psychiatry and the use of neuroimaging. Dr. Cecchi’s particular interests are in the varied aspects of theoretical biology, such as brain imaging, molecular computation, Brownian transport, spike reliability in neurons, the song production and representation in diverse songbirds, statistics of natural images as well as visual perception, and more. The computational neuroscientist discusses their work with adolescents who have a clinical risk for psychosis. As he explains, they conducted baseline interviews then followed patients for several years, to see if it is possible to predict which patients would have dramatic psychotic outbreaks, in an attempt to better understand how to work with patients, predict upcoming problems, and provide better early treatment. Dr. Cecchi explains how they observe speech and patterns, and interpret signs and signals. The research doctor goes on to discuss parameters they consider in their studies, and as he states, certain factors can be significant. He explains studies that have been successful in the identification of speech markers, and the factors that are involved, looking at baseline, and considering future trials. Dr. Cecchi cites further examples of their work researching ALS, and how they use data collected from smartphones, in order to observe deterioration, motor activity, and cognitive aspects over time. As Dr. Cecchi states, the goal on some of their work is to create a model that can be brought to the FDA, in order to eventually provide better treatment. 

Dr. Mark Z. Jacobson is an expert on global climate models and created one of the first. In this podcast, he describes how modeling took on more complexity over  the years and what its potential uses are, why measuring electric car payback is also about health effects, not just an emissions versus production measurement, and what states are approaching 100% renewable energy efforts and which technologies will get us there the fastest. Dr. Jacobson is a professor of civil and environmental engineering at Stanford University. He works on understanding air pollution and climate change issues and develops large-scale clean, renewable energy solutions. Currently, he's working on a three-dimensional atmosphere, biosphere, and ocean computer model. He simulates air pollution, weather, and climate to enable renewable energy road maps for states to transfer to 100% renewal energy systems in the near future. As a young person, he traveled to LA frequently and experienced physical effects of air pollution, inspiring him towards his present work. He's still working on a model he started in grad school that tracks the "life cycle" of air pollution. In this conversation, he talks about the process of collecting emissions data from a gridded system that integrates anthropogenic emissions. He then adds natural emissions as well and weather predictions.   He tells listeners that transportations is the biggest pollution emitter and why. He also explains that this not only causes the greenhouse effect, but also causes numerous health problems and thousands of deaths. Therefore, he reminds listeners, eliminating air pollution is a vital health issue. Finally, he explains how his global climate models are scaled to state-wide systems to help governments reduce air pollution and climate change through suggested technologies. For more, see his web page at Stanford. It contains links to his papers as well as a free online class he offers: https://web.stanford.edu/group/efmh/jacobson/ You can find him on twitter as @mzjacobson

Mark Pipher is the Vice President of FacilityConneX, a company that aims to reduce energy consumption through equipment optimization and smart building ideas.  He discusses the following: Why it can be so difficult for large companies to identify which pieces of equipment are using the most energy By what percentage energy usage can be decreased through the correction of faults found in different types of equipment Common and easily fixable problems found in industrial units Consider a 250,000 square-foot building that sees a three million-dollar electric bill on average, and also imagine the environmental and financial benefits that would come from cutting that cost by 10 to 20 percent. This is what FacilityConneX is doing for their clients on a continuous basis, resulting in reduced energy consumption, lower carbon emissions, and more efficient business and industrial operations overall. Pipher discusses some examples of the types of equipment they work to optimize and the ways in which optimization can occur, such as identifying and correcting simultaneous heating and cooling in an HVAC system. Through the use of analytic techniques, FacilityConneX is able to monitor every single piece of equipment in a building that houses thousands, and identify any existing or potential problems in real time. He discusses the three main aspects of the services they provide, some of the most common interventions used for specific problems, and the different approaches they use depending on whether they’re addressing an old building with old equipment, or new development, new equipment, or expansion of an existing facility. Tune in for the full conversation and learn more at https://www.facilityconnex.com/.