'Wetware': Scientists use human mini-brains to power computers / Photo: Fabrice COFFRINI - AFP
RBGPF
0.5000
The Japan Times - 'Wetware': Scientists use human mini-brains to power computers
EUR
-
AED 4.306153
AFN 75.0429
ALL 95.503739
AMD 434.75432
ANG 2.098709
AOA 1076.390828
ARS 1633.24778
AUD 1.628526
AWG 2.110569
AZN 1.997971
BAM 1.957785
BBD 2.362126
BDT 143.899979
BGN 1.955914
BHD 0.44281
BIF 3489.474751
BMD 1.172539
BND 1.496038
BOB 8.103802
BRL 5.808644
BSD 1.172804
BTN 111.252582
BWP 15.938311
BYN 3.309523
BYR 22981.755751
BZD 2.358712
CAD 1.592953
CDF 2720.28988
CHF 0.91605
CLF 0.026783
CLP 1054.112588
CNY 8.006387
CNH 8.009617
COP 4288.442525
CRC 533.195048
CUC 1.172539
CUP 31.072272
CVE 110.746729
CZK 24.365813
DJF 208.384014
DKK 7.468372
DOP 69.770598
DZD 155.365983
EGP 62.894658
ERN 17.588078
ETB 184.088973
FJD 2.570327
FKP 0.863714
GBP 0.862002
GEL 3.142861
GGP 0.863714
GHS 13.136953
GIP 0.863714
GMD 85.595732
GNF 10289.026269
GTQ 8.959961
GYD 245.356495
HKD 9.184382
HNL 31.213432
HRK 7.537125
HTG 153.631453
HUF 364.824102
IDR 20325.193765
ILS 3.451755
IMP 0.863714
INR 111.286226
IQD 1536.025512
IRR 1540715.666567
ISK 143.847483
JEP 0.863714
JMD 183.766277
JOD 0.831376
JPY 183.590271
KES 151.433806
KGS 102.503912
KHR 4704.815418
KMF 492.466605
KPW 1055.284674
KRW 1728.0057
KWD 0.36031
KYD 0.977362
KZT 543.223189
LAK 25772.39793
LBP 105000.828342
LKR 374.82671
LRD 215.600573
LSL 19.53494
LTL 3.462202
LVL 0.709257
LYD 7.446066
MAD 10.847448
MDL 20.206948
MGA 4866.035425
MKD 61.633886
MMK 2461.733132
MNT 4195.16771
MOP 9.463379
MRU 46.86681
MUR 55.144932
MVR 18.121629
MWK 2041.980281
MXN 20.470224
MYR 4.655421
MZN 74.929587
NAD 19.534934
NGN 1613.390048
NIO 43.044332
NOK 10.870375
NPR 177.995572
NZD 1.986849
OMR 0.451129
PAB 1.172774
PEN 4.112684
PGK 5.087352
PHP 71.847345
PKR 326.874482
PLN 4.253857
PYG 7213.019006
QAR 4.272149
RON 5.203848
RSD 117.378833
RUB 87.908248
RWF 1713.665104
SAR 4.396996
SBD 9.429684
SCR 16.118093
SDG 704.113715
SEK 10.846455
SGD 1.493936
SHP 0.875418
SLE 28.848748
SLL 24587.542811
SOS 669.519913
SRD 43.920994
STD 24269.180819
STN 24.869543
SVC 10.262409
SYP 129.594802
SZL 19.534925
THB 38.122791
TJS 11.000548
TMT 4.109748
TND 3.378963
TOP 2.823192
TRY 52.931326
TTD 7.960816
TWD 37.086813
TZS 3054.463338
UAH 51.532291
UGX 4409.902668
USD 1.172539
UYU 46.771998
UZS 14011.836168
VES 573.304233
VND 30903.426254
VUV 137.95079
WST 3.183664
XAF 656.670246
XAG 0.01556
XAU 0.000254
XCD 3.168845
XCG 2.113677
XDR 0.815653
XOF 656.621982
XPF 119.331742
YER 279.771908
ZAR 19.594648
ZMK 10554.258277
ZMW 21.901789
ZWL 377.556938
- Rubio to visit Rome, meet Pope Leo after Trump row
- Kyiv hits Russian oil sites as eight killed in both countries
- Iran says US military operation 'impossible' as Trump mulls peace proposal
- Man Utd beat Liverpool to secure Champions League place
- Two die in 'respiratory illness' outbreak on Atlantic cruise ship
- Barcelona sink Bayern to reach women's Champions League final
- True Love lands eighth English 1000 Guineas for O'Brien
- Sinner dismantles Zverev to win Madrid Open, set record
- Brilliant Bordeaux clean out Bath to reach Champions Cup final
- Second unexploded shell found at illegal French rave: minister
'Wetware': Scientists use human mini-brains to power computers
Inside a lab in the picturesque Swiss town of Vevey, a scientist gives tiny clumps of human brain cells the nutrient-rich fluid they need to stay alive.
It is vital these mini-brains remain healthy, because they are serving as rudimentary computer processors -- and unlike your laptop, once they die, they cannot be rebooted.
This new field of research, called biocomputing or "wetware", aims to harness the evolutionarily honed yet still mysterious computing power of the human brain.
During a tour of Swiss start-up FinalSpark's lab, co-founder Fred Jordan told AFP he believes that processors using brain cells will one day replace the chips powering the artificial intelligence boom.
The supercomputers behind AI tools like ChatGPT currently use silicon semiconductors to simulate the neurons and networks of the human brain.
"Instead of trying to mimic, let's use the real thing," Jordan said.
Among other potential advantages, biocomputing could help address the skyrocketing energy demands of AI, which have already threatened climate emissions targets and led some tech giants to resort to nuclear power.
"Biological neurons are one million times more energy efficient than artificial neurons," Jordan said. They can also be endlessly reproduced in the lab, unlike the massively in-demand AI chips made by companies like behemoth Nvidia.
But for now, wetware's computing power is a very long way from competing with the hardware that runs the world.
And another question lingers: could these tiny brains become conscious?
- Brain power -
To make its "bioprocessors," FinalSpark first purchases stem cells. These cells, which were originally human skin cells from anonymous human donors, can become any cell in the body.
FinalSpark's scientists then turn them into neurons, which are collected into millimetre-wide clumps called brain organoids.
They are around the size of the brain of a fruit fly larvae, Jordan said.
Electrodes are attached to the organoids in the lab, which allow the scientists to "spy on their internal discussion," he explained.
The scientists can also stimulate the organoids with a small electric current. Whether they respond with a spike in activity -- or not -- is roughly the equivalent of the ones or zeroes in traditional computing.
Ten universities around the world are conducting experiments using FinalSpark's organoids -- the small company's website even has a live feed of the neurons at work.
Benjamin Ward-Cherrier, a researcher at the University of Bristol, used one of the organoids as the brain of a simple robot that managed to distinguish between different braille letters.
There are many challenges, including encoding the data in a way the organoid might understand -- then trying to interpret what the brain cells "spit out," he told AFP.
"Working with robots is very easy by comparison," Ward-Cherrier said with a laugh.
"There's also the fact that they are living cells -- and that means that they do die," he added.
Indeed, Ward-Cherrier was halfway through an experiment when the organoid died and his team had to start over. FinalSpark says the organoids live for up to six months.
At Johns Hopkins University in the United States, researcher Lena Smirnova is using similar organoids to study brain conditions such as autism and Alzheimer's disease in the hopes of finding new treatments.
Biocomputing is currently more "pie in the sky," unlike the "low-hanging fruit" use of the technology for biomedical research -- but that could change dramatically over the next 20 years, she told AFP.
- Do organoids dream of electric sheep? -
All the scientists AFP spoke to dismissed the idea that these tiny balls of cells in petri dishes were at risk of developing anything resembling consciousness.
Jordan acknowledged that "this is at the edge of philosophy," which is why FinalSpark collaborates with ethicists.
He also pointed out that the organoids -- which lack pain receptors -- have around 10,000 neurons, compared to a human brain's 100 billion.
However much about our brains, including how they create consciousness, remains a mystery.
That is why Ward-Cherrier hopes that -- beyond computer processing -- biocomputing will ultimately reveal more about how our brains work.
Back in the lab, Jordan opens the door of what looks like a big fridge containing 16 brain organoids in a tangle of tubes.
Lines suddenly start spiking on the screen next to the incubator, indicating significant neural activity.
The brain cells have no known way of sensing that their door has been opened, and the scientists have spent years trying to figure why this happens.
"We still don't understand how they detect the opening of the door," Jordan admitted.
K.Nakajima--JT
