Эротические рассказы

Principles of Superconducting Quantum Computers. Daniel D. StancilЧитать онлайн книгу.

Principles of Superconducting Quantum Computers - Daniel D. Stancil


Скачать книгу
271

      304  272

      305  273

      306  274

      307  275

      308  276

      309  277

      310  278

      311  279

      312  280

      313  281

      314  282

      315  283

      316  284

      317  285

      318  286

      319  287

      320  288

      321  289

      322 290

      323  291

      324  292

      325  293

      326  294

      327 295

      328  296

      329  297

      330  298

      331  299

      332  300

      333  301

      334  302

      335  303

      336  304

      337  305

      338  306

      339  307

      340  308

      341  309

      342 310

      343  311

      344  312

      345  313

      346  314

      347  315

      348  316

      349  317

      350  318

      351  319

      352  320

      353  321

      354  322

      355 323

      356  324

      357  325

      358 326

      359  327

      360 328

      361 329

      362 330

      363 331

      364 332

      365 333

      366 334

      367 335

      368 336

      369 337

      370 338

      371  339

      372 340

      373 341

      Over the past several years progress in quantum computing technology and algorithms has accelerated rapidly. We believe that Electrical and Computer Engineers have much to contribute to this work, and one of the goals of this book is to help introduce those with ECE backgrounds to this exciting area.

      Our interest in quantum computing was initiated by the discussions between NC State and IBM about establishing the IBM Quantum Hub at NC State, and began in earnest in the spring of 2018. During this semester we both sat in on a Computer Science special topics seminar led by professors Frank Mueller and Patrick Dreher. This led to a joint CSC/ ECE special topics course on quantum computing in the fall of 2018 that was team-taught by professors Mueller and Dreher along with one of us (GTB).

      As we have delved more deeply into quantum computing over the past several years, we have discovered that most of the rapidly-growing literature is addressed to those with backgrounds in physics, mathematics, and/or computer science, and often assumes a body of shared prerequisite knowledge and terminology that is not typical for Electrical and Computer Engineers. Electrical Engineers studying semiconductor physics do study quantum mechanics, but from a very different perspective. Band theory, effective mass, tunneling, and perhaps the hydrogen atom are covered, but quantum computing involves 2-level systems, state vectors and rotations, Hamiltonians, and unitary operators—topics not normally emphasized in device physics courses. Further, there is very little available in the current introductory literature explaining how the systems operate.

      Just as semiconductor physics became a standard component of electrical engineering curricula beginning in the early 1960s, we believe that quantum computing will become integral parts of ECE curricula in the coming decades. The span of ECE covers the entire range of technologies underpinning quantum computing, including device physics and modeling, nanofabrication, RF and optical systems, signal processing, information theory, error correction and coding, transpilers and compilers, system architecture, and algorithms and applications.

      At the time of this writing, there are competing technologies for the implementation of quantum computing, including trapped ions, quantum dots, topological structures, and artificial atoms made with superconducting devices. While we believe Electrical and Computer Engineers will be critical to the development of all of these systems, we have chosen in this volume to concentrate on superconducting technologies relying on Josephson junction transmons.

      We offer this work not as an exposition by authorities, but rather as an introduction by technological “pilgrims” hoping to help other “pilgrims” along this exciting journey.

       D. D. Stancil

       G. T. Byrd

       Raleigh, NC

      We are grateful to our colleagues and students at NC State for many helpful conversations that have deepened and clarified our understanding. In addition, we would like to acknowledge helpful comments on portions of the manuscript by J. C. Bardin and N. Earnest-Noble. Of course, any remaining errors are ours.

      This book is accompanied by a companion website:

       www.wiley.com/go/stancil/principlesofsuperconductingquantumcomputers


Скачать книгу
Яндекс.Метрика