The Singularity Is Near: When Humans Transcend Biology (117 page)
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Authors: Ray Kurzweil
Tags: #Non-Fiction, #Fringe Science, #Retail, #Technology, #Amazon.com
38
. John Searle to Ray Kurzweil, December 15, 1998.
39
. Lanier, “One Half of a Manifesto.”
40
. David Brooks, “Good News About Poverty,”
New York Times
November 27, 2004, A35.
41
. Hans Moravec, Letter to the Editor,
New York Review of Books
,
http://www.kurzweiltech.com/Searle/searle_response_letter.htm
.
42
. Patrick Moore, “The Battle for Biotech Progress—GM Crops Are Good for the
Environment and Human Welfare,”
Greenspirit
(February 2004),
www.greenspirit.com/logbook.cfm?msid=62
.
43
. Joel Cutcher-Gershenfeld, private communication to Ray Kurzweil, February 2005.
44
. William A. Dembski, “Kurzweil’s Impoverished Spirituality,” in Richards et al.,
Are We Spiritual Machines?
45
. Denton, “Organism and Machine.”
Epilogue
1
. As quoted in James Gardner, “Selfish Biocosm,”
Complexity
5.3 (January–February 2000): 34–45.
2
. In the function
y
= 1/
x
, if
x
= 0, then the function is literally undefined, but we can show that the value of
y
exceeds any finite number. We can transform
y
= 1/
x
into
x
= 1/
y
by flipping the nominator and denominator of both sides of the equation. So if we set
y
to a large finite number, then we can see that
x
becomes very small but not zero, no matter how big
y
gets. So the value of
y
in
y
= 1/
x
can be seen to exceed any finite value for
y
if
x
= 0. Another way to express this is that we can exceed any possible finite value of
y
by setting
x
to be greater than 0 but smaller than 1 divided by that value.
3
. With estimates of 10
16
cps for functional simulation of the human brain (see chapter 3) and about 10
10
(under ten billion) human brains, that’s 10
26
cps for all biological human brains. So 10
90
cps exceeds this by a factor of 10
64
.If we use the more conservative figure of 10
19
cps, which I estimated was necessary to simulate each nonlinearity in each neuron component (dendrite, axon, and so on), we get a factor of 10
61
.A trillion trillion trillion trillion trillion is 10
60
.
4
. See the estimates in the preceding note; 10
42
cps exceeds this by a factor of ten thousand trillion (10
16
).
5
. Stephen Jay Gould, “Jove’s Thunderbolts,”
Natural History
103.10 (October 1994): 6–12; chapter 13 in
Dinosaur in a Haystack: Reflections in Natural History
(New York:Harmony Books, 1995).
Index
Page numbers in
italics
refer to illustrations.
aaATIII, 222
Abbott, A., 585
n
Abbott, Larry, 170, 542
n
Abbott Laboratories, 282
ABC News, 393
Abduljalil, A. M., 540
n
Abeln, G. C., 562
n
, 563
n
Abrams tanks, 332, 335
abstraction, 16, 175, 198
“Accelerating Change” conference, 504
n
accelerating returns, law of, 3, 7–14, 29, 35–110, 371, 373, 432, 441, 457, 507
n
–526
n
communications and, 35, 48–50,
48–50
, 73, 76–77,
77
, 97, 102, 245–246, 511
n
–512
n
computer memory and, 57–58,
57, 58
, 59, 75–76,
75, 76
, 96, 102
conservatism of social institutions and, 472–473
DNA sequencing and, 73–74,
73, 74
, 514
n
economic growth and, 96–110, 433, 524
n
–526
n
ETI and, 344
exponential growth in, 3, 7–14, 35, 40–46, 56–84,
57–65, 67, 69–71, 73–84
, 96–101,
98, 99, 101
, 106–110,
108
, 257, 498
n
farsighted evolution and, 47–50,
48–50
fractal designs and, 46–47
information, order, and evolution and, 85–94, 516
n
–523
n
intelligence and, 265, 344, 349–351
Internet and, 78–81,
78–81
, 95, 97, 516
n
life cycle of a paradigm and, 43–46
life cycle of technology and, 51–56
miniaturization and, 42–43, 45, 57–61,
57–60
, 73, 82–84,
82–84
, 96, 102, 227
Moore’s Law and,
see
Moore’s Law
nature of order and, 36–43
principles of, 40–43
revisiting of, 491–496, 504
n
second law of thermodynamics and, 39–40
world hunger solution and, 224
see also
exponential growth
acceleration, 10, 165
actin, 175, 199–200, 383
Acura RL, 287
acute myeloblastic leukemia, 215
adenosine triphosphate (ATP), 118, 232, 234, 238, 306, 399
adenoviruses, 216
Adept Technologies, 285
Adleman, Leonard, 529
n
–530
n
Adrian, E. D., 154, 539
n
Afghanistan, 280, 332, 334
Africa:
AIDS in, 95, 470
GMO food in, 406, 414, 415
natural nuclear reactor in, 139–140, 503
n
Web access in, 469
Age of Intelligent Machines, The
(Kurzweil), 3, 24, 94, 275, 277, 279, 393, 497
n
, 518
n
, 519
n
Age of Spiritual Machines, The
(
ASM
) (Kurzweil), 3, 24, 113, 315–316, 361
catching a fly ball examined in, 178–179
molecular computing in, 121
only-a-human cartoon in, 290–291,
291
promise vs. perils of technology in, 393–394, 427
AGEs (advanced glycation end-products), 220
aging, 100, 233
of cells, 209
slowing and reversal of, 28, 141, 206, 210–221, 253, 256–257, 259, 323, 371, 373, 377, 397
agriculture,
17, 18, 20
, 536
n
GMOs and, 414–415, 471
reduction in farm workforce and, 302, 340, 583
n
AI,
see
artificial intelligence; narrow AI; strong AI
AIDS drugs, 95, 470
Air Force, U.S., 280, 335
Air Force Strategic Missiles Evaluation Committee, 401
airplanes, aviation, 138, 146, 246, 266, 397, 409, 420
Bernoulli’s principle and, 265
guidance for, 8, 255, 276, 413, 435–436, 456
air pollution, 243
airports, 284
air pressure, 265
Akers, Nick, 247–248, 595
n
alanine, 210
alcohol, 247–248
algebra, 283
algorithmic information content (AIC), 37, 38
algorithms, 5, 444, 445, 461, 522
n
brain-modeling, 148–149
brain reverse engineering and, 147
Church-Turing thesis and, 454, 455
data compression, 516
n
–517
n
decision or halting problem and, 601
n
DNA computing and, 118
equivalence principle and, 136–137, 536
n
learning, 156
minimax, 275–277
neural net, 269, 570
n
–574
n
parallelizing of, 439
reversible computing and, 130–31, 132
self-organizing, 146, 439–40, 481, 538
n
;
see also
evolutionary (genetic) algorithms
software, 428, 438–442
Allan, Alasdair, 281
Allen, Paul, 343
Allen Telescope Array, 343,
343
Allis, G., 561
n
Allison, Graham, 596
n
Allsop, A., 552
n
alpha (fine-structure constant), 140, 356, 503
n
ALT-711 (phenacyldimenthylthiazolium chloride), 220
aluminum, 245, 246
Alzheimer’s disease, 549
n
biotechnology and, 209, 220, 555
n
brain reverse engineering and, 144, 188
Ameisen, J. C., 557
n
amino acids, 483
nanotechnology and, 233,
233
, 234, 242
in proteins, 27, 47, 85, 148, 208–210, 309, 517
n
, 550
n
amygdala, 541
n
amyloid plaque, 220, 550
n
analog, analog operations:
in brain, 71, 126, 147–151, 428, 442, 483
criticism from, 428, 442
digital vs., 14, 126, 147, 149–150, 308, 428, 442, 461, 519
n
image sensors, 533
n
Mead’s use of, 89, 188
transistors’ use of, 126, 149–150, 151, 188, 189, 442, 443
ANALOGY, 569
n
Ananthaswamy, Anil, 553
n
Andberg, Anders, 591
n
Anderson, Mark K., 527
n
Anderson, M. C., 544
n
Anderson, W. French, 196, 548
n
anger, 193, 379, 389, 477–478
Anger, Natalie, 551
n
angiogenesis, blocking of, 218, 222
animal rights, 378
animals:
antiaging experiments in, 220–221
blood-brain barrier in, 163
brain of, 4, 129, 145, 169
cloning of, 221, 222, 555
n
–556
n
consciousness of, 378, 466–468
defensive technologies tested on, 416
elimination of suffering of, 224, 379
gene therapy in, 215, 216
medical nanobots in, 254–255
memory in, 48
moratorium on transplantation of vascularized organs of, 418
motion detection in, 188
observation by, 47, 48
pattern recognition in, 16
pigmentation of, 90
SARS virus in, 402
transgenic, 215, 222
xenografts and, 418, 598
n
see also specific animals
Anissimov, Michael, 10, 299, 320, 321
ant colonies, 151
Anthes, Gary H., 570
n
Anthropic Cosmological Principle, The
(Barrow and Tipler), 500
n
anthropic principle, 15, 357, 359–364, 499
n
–501
n
antibiotics, 306, 409
antibodies, 242, 255, 425
antigens, 218
antiparticles, 363, 486–487, 503
n
, 521
n
antiviral medications, 511
n
apes, 72, 191, 193, 387, 509
n
see also specific apes
apical dendrites, 191–192,
192
Apo-A-I Milano (AAIM), 217
application-specific integrated circuits (ASICs), 125, 135, 276, 445
Arai, K. I., 584
n
Arbib, Michael A., 190, 548
n