This content details a novel application of Synthetic Aperture Radar (SAR) and Doppler tomography to non-invasively scan and map subterranean structures within ancient Egyptian pyramids, specifically the Khufu and Khafre pyramids, revealing previously unknown chambers and pillars.
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There are uh enormous pillars that goes
from the base uh of the Cafra pyramid
and uh goes underneath for approximately
1.2 kilometers. And at the end of these
pillars there are huge chambers, huge
structures. They have the shape of a of
a a cube of approximately 80 mters of uh
dimension. Inside the caf pyramid, we
found five structures that can be like
in the chaops pyramid.
>> Did you find anything under the swings?
>> We have one pillar and we have a a
one pillar that goes underneath a lot.
We have a chamber that is located uh at
the end of uh the scan between the the
surface and the bottom we have another
intermediate chamber. An American
physicist Luis Alver applied the moon
technology to the Cafrey pyramid but
with any resource also because the in at
that time the technology was uh at the
beginning. Chern for example of the
University of Tokyo between 2011 and
2013 made uh other experiments inside
the pyramids partly in the pyramid of
Kafra and uh they discovered
discovered
uh a possible void at 73 m over the Bono
chamber. We measure it the length, the
height, and the width of the big void.
And it's written all on the paper,
>> but they they also used their mon
technology, but they couldn't find those.
those.
>> No, they
>> like the other chambers you you found.
So I assume if they place the the
detectors there, they could find those
rooms which you you found. [Music]
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cigar.
>> No, no, no. I'm I'm I'm not smoking.
>> But uh yeah, it's like a tradition on
the show that we are drinking in.
>> Just if you want. It's no pressure. No
pressure. No pressure.
>> Uh but I can
>> maybe some water.
>> Okay.
You don't need water. No. >> Okay.
>> Okay.
>> Thank you.
>> Uh so, Philip Obiandi and Dr.
>> Armando May,
>> welcome on the show. Thanks for joining me.
me.
>> Oh, thank you to you for the invitation.
Thank you.
>> Thank you for the invitation.
>> Um I would like to know how did you
start this entire research? You you did
both two huge researches right on the
Giza plateau. One was attached to the
Kufu pyramid and the other one was
attached to the Kafrey pyramid.
>> Could you talk a little bit about the
origin of this entire research? How did
you start it and why did you started it
with the with the bigger pyramid? Yes,
it was a per a period of of my life uh
that I
I was re researching a particular uh
technique uh using radar to uh
extrapolate vibrations from um synthetic
aure rather images.
uh I apply. Why I did this? Because in 2018
2018
uh an a very important
um Italian bridge collapsed and began
from there. It was the Mandi bridge
located in Genua collapsed because it
was a storm and the entire infrastructure
infrastructure
reached it its so-called uh resonance
frequency and then collapsed.
>> The same thing happened in Japan, right?
>> Yes. And so I I I didn't realize why
collapsed. I in my uh
my in my interior I was saying I had to
do something in order to prevent this.
So I started uh working a lot uh in
finding a solution uh to uh study the
so-called resonance frequencies of um of
bridges. to do that it is a very
expensive task because you have to go on
the bridge on the infrastructure install
uh so-called INC2 uh measurement uh
facilities knows sensors and so was a bit
bit
a hard uh task this so I realized that
that yes but we have uh satellites
rather images that are uh uh that are synthetized
synthetized
in the uh X band that it's approximately
10 GHz.
Yes, of course. Because uh the orbital
uh component of the image is focused
using the Doppler frequencies and the
Doppler frequencies. It means that
Doppler at 10 GHz uh considering that
the satellites flies at 7 kilome
kilometers per second so a very high
velocity the Doppler frequencies recast
inside the acoustic uh range.
>> Just to get the the listeners familiar
with the Doppler effect, it's like when
there is an ambulance car going on the
street. Yes. with a certain speed and
the the the pitch or the the not the
volume the frequency of of the siren is
changing because it's moving
>> of the motion. Yes.
uh when we listen the ambulance that
approaching approaches us you have the
frequency is higher then it passes to
through that zero doppler and you listen
the original frequency and then when
it's going back the frequencies lower is
are lower the original frequencies are
lower so that's the Doppler effect and
the Doppler effect we have Doppler
effects in a radar so we we found a
solution in order to transform each
pixel uh uh composing the uh
measurements of the bridges into a
so-called measure measurement point a
point of measurement of vibrations. So
that that was very nice. We I published
the paper
in 2019 I think. I don't remember but I
think it's 2019. You can find it on the
on the website on the remote sensing
journal peer reviewed. So infrastructure
monitoring by synthetic virtual radar.
>> So you could measure the resonation of
the bridge from the satellites
>> a model analysis complete model an
analysis from space. And um I a lot of
companies also started to contacting me
because to commercialize this kind of uh
facility here.
>> Did you patent it?
>> No, this No, I did not patented this. No.
No.
Then once uh we um
was able we were able to uh uh make do
this kind of work. Um I met uh Corado
Malanga. Coro Malanga is now the uh
former scientist of our group, the team
leader. I met him and I it was a period
that he was studying the Kung Kufu
pyramid. Uh and he had his own vision
that uh I agree of the uh purpose of uh
of the Kaops pyramid.
And I spoke to him. Gorado. Hello.
um you know I am doing this job uh we
are uh I am uh with my research group
that I was working at uh that period
uh we are uh uh performing this uh um
recipe let's call it in order to uh
retrive the uh vibrations can can we do
uh something together so to measure the
resonance principal components of the
pyramid. Corado say yes. We started the
project. Then uh I realized that uh the
fre the the acoustic uh signals are
propagating only inside matter. All
inside matter. And the um the more
matter is dense the better is the
velocity. And so why not we uh developed
a an additional method to perform the
so-called tomographic analysis of what
there is inside the structures.
>> Yeah. And what did you find? I if I
remember correctly, I've seen your
research paper. You found like hidden chambers.
chambers. >> Yes.
>> Yes.
>> In the
>> Yes, we found hidden chambers inside the
Kum Kufu. It was a period. So it's the
biggest pyramid of Giza if someone
doesn't know.
>> Yes. It was a period then that
Zagia was that I respect him with his
research group that is the scan pyramid
project that is still working today on
the pyramids was uh fetching the
so-called uh big void. >> Mhm.
>> Mhm.
uh and and in that period so we
concentrate efforts in order to uh
replicate the experiments of Zakyia and
so finding the big void but we saw that
applying our technique other things
rised out. We we we found other
structures inside.
>> Uh first of all, we found for the first
time the corridor that uh belongs
between the the interior of the chevron
into the uh grand gallery. It's
approximately 9 m long corridor. And
then we found that at the end of this
corridor there is a chamber that and
this chamber is an anti- camera that
goes upstairs then to the big void.
And so we publish this article because
we found a lot of things uh that are
written in the in the article uh in
2022. We publish it was accepted in
2022. So
>> in which journal was it?
>> Uh remote sensing MDPI.
>> Okay. So it's like a technical journal
of an archaeological
>> peer review. Yes. Yes. Of synthetic
aperture radar. >> Um
>> Um
what I what I can do um what I can say
uh since I uh met Colorado in 2019.
Three years later, we published this uh
controversial, let's say controversial
uh article because uh we found a lot of
things uh that were located inside the
Kung Kufu pyramid and also below the
underneath uh the the pyramid.
>> Did you use commercial uh satellites or
how did you get the data? Yes, at that
time uh I
used to collaborate with uh Italian
universities and uh data were given to
us for free uh where data of cosmos climate
climate
>> that that is the Italian satellite
satellite system uh the Italian
satellite system uh managed by the
Italian space agency. So, how can we
imagine this? Like you have probably
several satellite measurements, not just one.
one. >> Yes.
>> Yes.
>> Uh how could you create the the picture
you get from the satellite? Is it a
two-dimensional picture? Is is it like a
depth map or what's what's the
>> I explain you this because it's the core
of my my technique.
>> Every p picture is two dimensional.
every picture because you have a
projection of uh the the uh data
collected by the sensor are projected
into a measurement system a measurement
system. This projection in radar is zen
range at the projection of synthetica
virtual radar and this it is absolutely
two dimensional and superficial with
superficial interaction. So you can't
penetrate anything
>> Mhm. anything. But
But
um it was the period of of my PhD when I
was studying um I in uh I think 20 years
ago I I don't remember my PhD uh at the
University of Lagula and Rome last year.
>> You just don't use a doctor but you have
a PhD also. >> Yes.
>> Yes.
>> Okay. I didn't know that. >> Yes.
>> Yes.
I used to be also professor at
University of Stratly but now I resigned
to um concentrate efforts on the cafrey
pyramid project. So I am let's say free
for uh uh to free from academic uh uh positions.
positions.
>> So by trade you are an electrical
engineer and telecommunication with tele
telecommunication specialization.
>> Yes. and PhD also in telecomunication.
Awesome. And I I have also two masters in
in
>> uh telecommunication space uh
space law I would say space uh yeah
>> law and quantum physics.
>> Nice nice combination
>> quantum. Hold on. So uh where we arrived
uh three three years later uh we uh with
Colorado we published this uh
controversial uh paper that uh today
made more than 300,000 downloads from
the scientific uh community.
So uh and now we um
we we pass to uh the um Cafrey pyramid
project. Um uh
when we begin the Cafrey pyramid project
uh when we met Armando May, we met
Armando May that he uh suggest us to move
move
uh to move our uh work from the chaops
pyramid into the caf pyramid. >> Why?
>> Why?
because I after the my
in 2010 I was speaker at the conference
in Dubai
uh on ancient civilizations
uh together with Graham Manok, Robert
Shock, Robert and so on and Collins and
uh I presented my theory of The zerpi
that refers to the to a mythological
time uh during which uh the gods lived
among humans according to the myth and
it was also according some
text that I described in the in the book
of death for example or in the text of
the pyramids.
uh very likely during that time the the
pyramids were built. There are also some
papyrus suggesting the possible
existence of a long list of sovereigns.
They ruled over the Egypt since 38,000
years ago.
So I try to
study this matter starting from the
Orion coralation of by Robert Bval
and I have to say that I try to improve
the theory starting from a basic point
that in my opinion the Giza plateau is
composed not only by only by the
pyramids of the Sphinx but also
of other monuments that belong to a
global project. So I went to Giza, I
study on the field, I did different
missions on the field in the effort to
find the clues
that uh complete the global project and
I I in my opinion
um there are other monuments like the
temples beneath the sphinx for example.
uh the tomb of the birds in the west of
the py the the Giza plateau and also uh
the ridge in the southeast where
actually is the master of Kow the queen
Kent cows that I believe
>> which temples were in were beneath the swings
swings
>> the temp the temple of the sphinx the
temple of the valley
>> the two temples that are very close
>> I thought underneath
>> no no no that are very close to the I
know to the sphinx
>> and um so I
I put together all those piece all those
monuments that are on the giz plateau
and I try to
analyze a possible correlation of all
those monuments with the celestial vault applying
applying
a special uh software of uh astronomical
simulation. I work on the processal cycle
cycle
>> and of equinox. And I noted that all
those monuments are perfectly aligned
with the celestial world. So with
planets and constellations exactly in 36,400
36,400
before Christ.
At this point I of course the the second
question is who built the pyramids?
And um in my opinion the only way to
understand what is the purpose of the
monuments is to enter in the mind of the
builders of the architects. So I follow
a precise pattern of research based on
the analysis of
phonetic connected to the monuments.
Uh um the possible connection of the
monuments with the tool of the universal
language that is the number. I study
also the the monuments through
archetypes or applying models of
mathematic geometry.
And so uh studying the caf pyramid I
noted apply applying a basic
arithmetical model that is the prime
factorization. I noted that the
dimensions the sides of the cafrey pyramid
pyramid
uh yield as a result the number 137 that
is one of the most important
uh number for physicists connecting with
the quantum physic. But it this number
is also the
the core of the three main law of
physics electromagnetism, relativity and
quantum physic. So I understood that the
that number was a code inscribed in the monuments
monuments
and u at that point I enter in contact
with Filipo and Curado because there is
also another point because I noted that
uh beyond the the pyramids there was a
deity that is very important for The
ancient Egyptian that is the toty toot
that we know is the the master of
knowledge that was the scribe of the
gods and he was also the deity who
transferred the knowledge of science
and uh for these reasons I understood
that there was an in-depth connection
between the Giza plateau and taught. And
um I also understood that maybe in the
Cafra pyramid there were hidden chambers
that could be connected with the famous
halls of records that are kept all the
ancient knowledge of the survivors of
the lost civilization that pre that that
lived on this planet before ours. and is
connected with also with the text of Edu
for example.
And so we start the detection of the
Cafre pyramid and we found lots of
interesting mega structures beneath the
pyramid and chambers and jed inside the
uh the cuffer pyramid.
>> Did I understand correctly that the
plank constant is somehow encoded into
these monumental structures? Yes. How
did you or where did you find these correlations?
correlations?
uh applying the basic model of um
arithmetic that is based on the prime
factorization and applying the formula
of pi or I forgot the term in English
but it's a formula that is able to
count how many prime number are before a
a precise prime number.
So uh according to this formula I detect
the code and uh we follow this pattern
of research. >> Okay.
>> Okay.
I didn't quite understand that part when
you collected the radar
>> counting number. Yes.
>> Prime counting number. >> Yes.
>> Yes.
when when you collect the data of the
brother basically
if I'm right
it's also using kind of the time of
flight to detect the the the
points or the tomography on the on the
surface but to have it in a in a
two-dimensional picture it's it's using
the Doppler effect right so it's like a
combination of counting the time when
it's bouncing back and also So the the
the Doppler basically the frequency shift.
shift. >> Yes.
>> Yes.
>> But how could you see inside the pyramid?
pyramid?
>> Yes, that's crucial. Thank you for this
question. It's crucial.
We do like that. Um
it is uh uh it was when uh I were I was
attending my PhD in collaboration with
the uh national consil of research the
Italian national consil of research CNR
in Barry in Italy south of Italy when my
professor Nicola let's call it let's
call him Nicola
uh uh told me that I had to do the my uh
thesis with him. So he uh we started we
started to uh work with him
in something a bit strange called it
Doppler sub aperture analysis.
What is this?
uh rather images are synthetized
synthetized using the
the
aperture of the orbital of the orbit
synthetic aperture radar. Aperture it
means that the um spas resolution is
proportional to the aperture according
to the raillay formula.
I remember that the spas resolution is a
physical parameter measured in meters
that u [Music]
[Music]
it it is a a minimum a minimum distance
for which two targets can be uh detected
separately. So the first point to do is
to transform a two-dimensional static
image into a video into a a video where
the duration of the video it's the
duration of the orbit. So we refocus
several time
uh images having less Doppler
uh Doppler uh resolution. But this
procedure will allows to transform a
static image full resolution in
something something having lower
resolution but is transformed into a
video and this is the first thing. The
second is we know that uh uh the the
focusing procedure uses the so-called
uh stop and go approximation. It means
that everything
uh on the earth that we are picturing
has to be steady without motion. But it
is not like that. Everything has a
motion. And in the radar laws,
anything that moves is deoized
from the picture from the exact position
that has to be is the localized. And so
uh we have developed um a an algorithm
based on based on pixel tracking that
tracks each pixel on of the uh of each
frame rate frame rate of the video and
so we can retrive the vibrations.
The earth always vibrate. The we have uh
noticed that the uh precision on which
we can measure vibrations is extremely submmetric.
submmetric.
So it's very high and so on.
>> Do you have a limit?
>> Is the noise is the signal to noise
ratio ratio. But uh because we are using
uh the localization you are using the
tracking it is very robust in terms of
noise. I don't know if I am explaining
well this it is a this is crucial. So we
have found that the signal to loss ratio
is very high. So we we could go a lot
below the millimetric precision. A lot
below. also 1,00 1 over 1,00 1 mm.
Once we have we had developed uh
developed this procedure,
it was uh uh very simple because the
earth always moves. The earth moves
because of the seismic waves and also
the vibration provoked by human
activities, the wind. what what we want
you have and so we have used these
vibrations in order to scan inside.
So we are not using the electromagnetic
magnetic waves but we are using the
interaction of the electromagnetic waves
with the earth that returns information
in terms of Doppler troid anomalities
that regards the uh
uh the uh acoustic
telecommunication channel. We use this
acoustic teleation channel to scan below
the earth underneath.
>> So when there are slight movements in
the earth's crust is basically causing a
Doppler effect in the radio wave
>> from the satellite.
>> That's the crucial motivation of our uh technique.
technique.
>> And how could you see that deep? Yes.
The the deep is decided by the Doppler band.
band.
>> Mhm. I tell you
uh deep is uh we not we do not measure
the deep in terms of meters has not
sense because it's not light
>> but depends on the
>> on the material on the material but we
are measuring how deep we can go in
terms of delay
>> in seconds and that's normal delay then
when we have a model you can have also
the measurement in meters. Okay. So the
delay is uh
the maximum delay is approximately
uh calculated by the time of
integration. The integration time in
animote for a spotlight acquisition can be
be
uh 12 seconds from 12 seconds to 15 seconds
seconds
divided by four. So you have a generous
3 seconds 3 seconds of
um of acoustic delay to measure the
depth that translated into uh a distance
could be more than 5 kilometers. How
could you have the model from the Great Pyramid?
Pyramid?
>> Because it's it's like a complete I mean
it's a complex structure. It's a complex
structure different chambers
chambers
>> and they and they don't have a unique
material but they are different.
>> It's not homogeneous.
>> But this question is a normal question
for all geologist. You don't it's it's
it's my problem but also of the geologist.
geologist. >> Yeah.
>> Yeah.
And so uh nothing you have a delay and
you uh uh perform the um translation
from delay into into a space measurement
applying an approximation. So you use limestone
limestone
approximately you have l limestone mixed
to soil. You have the model you have the
velocity in limestone mixed to soil. And
so you we arrived to measure the erh the
structure depth
uh on about 1.2 kilometers below.
>> So if the model is not correct
maybe the dimensions are are not the same
same
>> are the same. No if is if is not correct
are not the same. Can it be that it's also
also
>> we did also some measurements that from
um how you say uh comparation
we knew the exact when when we observed
the the the the
scan of the pyramid we know exactly the
height of the pyramid and then by
comparation we are measuring know all
the all the distance that's another another
another
method to measure the dep the depth of
the structures
>> if you have the
>> relative to the
>> relative to the pyramid
>> because it is very it is it is known
that that distance. Okay.
>> Is it possible that if you discover a
void with a limestone model
it's so unsignificantly small if you
take a granite model.
But the the difference in terms of
velocity is a lot
can be deeper than 1.2 kilometers.
>> It means no.
>> Okay. Yeah.
>> Because the space is more. >> Yeah.
>> Yeah.
>> The the delay is the same. What changes
is the space that you measure. >> Yeah.
>> Yeah.
And how did you came to this 3D render?
I'm just talking about the the kufu.
>> Yes. first but how did you build this
this threedimensional
>> I tell you we have measured
a lot of uh we we performed a lot of
measurements using
uh different
lines tomographic lines different
um synthetic aperture rather images and
the different satellites also
>> it's like all around the pyramid or or
is just from from one part
>> all around the pyramid Okay.
>> All around the pyramid. And so having on
the table all these tomograms, we
started to draw the 3D model to be more
comprehensive to people because we know
how to read
>> like a like a doctor that reads the
X-ray of our body.
>> But it was important for us to translate
this data better for people
>> like an illustration.
>> An illustration. Yes, we we did we draw
this 3D model that we show everyone.
Uh and so
>> so it's not AI generated or something
because there were news that it was made
with AI or something like that.
>> What we found we we found a lot of
things. Uh what we found we we um
announced uh our last uh discoveries in Malta
Malta
uh a week ago and yesterday at the
cosmic summit. Uh there are uh enormous
pillars that goes from the base uh of
the Cafra pyramid and uh goes underneath
for a lot of uh distance uh
approximately 1.2 into kilometers. And
at the end of these pillars, there are
huge chambers, huge structures. Uh
Uh
we we can see that they have the shape
of a of a cube a cube. No. >> Yeah.
>> Yeah.
>> With uh of approximately 80 m of uh
dimension of 80 m. Um
Um
and then uh inside the caf uh pyramid we
found five structures that can be uh
like uh a zed that is uh uh that we know
that is in the chaops pyramid that
monument that is multi-layer no that you
have at the center of the of the pyramid
and then uh these pillars are the same
we found the same pillars also
Um uh underneath the manaw pyramid and also
also
>> the same pillars. Yes, they are there
are eight pillars in the caf pyramid and
four pillars in the manoi pyramid
>> and no pillars under the the
>> kum kufu kum kufu uh it's a bit uh
tricky because kum kufu has
uh um interconnected structures
underneath there are the pillars but in
2022 we did not so see very well those
pillars So we did not report those pillars.
pillars.
>> Do you know why you didn't see them?
>> Yes. Because when you have
interconnected interconnected structures,
structures,
the sound is not so clear. So there we
have to study again more. We have to
study more the Kung Kufu pyramid because
we want to isolate the signal that bel
that belongs to the pillars and the
signal that are uh of the uh ramp ramps
that they are interconnecting interconnecting
interconnecting
the Kum Kufu pyramid through with the
Cafra pyramid. There are ramps that goes
underneath. So they are connected underground.
underground.
>> Everything is connected underground.
>> Okay. Because I
>> you have a network that it is it is uh
also difficult for us to to
>> I've been there and and I've seen that
that there are channels and tunnels
everywhere under the Giza plateau. It's
like a massive complex. Probably half of
it it's not even discovered or excavated
yet. And here uh we uh coined the
so-called tip of the iceberg. The
pyramids are only the tip of the
iceberg. This is my personal opinion
because observing the scan the scans
that shows things underneath. We can
think that the pyramids are only the
smallest part visible from the from the
surface. It's very small with respect of
things that are located underneath.
>> Um are these pillars has to be solid or
can be hello like empty in the inside?
>> Thank you for this question.
uh the tomoggrams uh observing the
tomoggrams uh we are uh sure that they
have a regular pattern
that can recall something as a spiral
star case spiral uh stairs.
stairs. >> Yeah.
>> Yeah. Um
Um
inside each pillar it there is something
very with a very strong signal. So very
dense and we call it a core that goes
Inside they can be hello. Yes. But we
are sure that the uh longitudinal axis
of the pillars >> Yeah.
>> Yeah.
>> there is a core very dense in terms of
material density matter density.
>> How would the picture change when the
when the pillars would be solid versus empty?
empty? >> Yes.
>> Yes.
>> Or hollow. >> Yes.
>> Yes.
>> What what what the picture Yes. the
picture will change because
uh something that is uh
not hollow. So let's imagine like a a
geometric uh figure like
a a cylinder
a cylinder a cylindrical pillar not hollow.
hollow.
uh with
full of material. Solid >> solid
>> solid
>> has a is different with respect
the uh images that we have because
observing these images we are
confident that inside are hollow because
how your question is how can you say
this h because in the homograms we
should see the something that with a
uniform color. I don't know if I explain.
explain.
>> Yeah. Yeah.
>> Not something that inside you see other
things. No.
>> Yeah. Yeah. So the color represents the delay.
delay.
>> The color represents the energy of the
returned signal and the position the
vertical position is the delay.
>> Yeah. And this if there is a different
material or it's like different
consistency of materials
>> you see it brighter
brighter with respect to materials that
are less dense. You see it more less
brighter less bright.
>> Yeah. Yeah. Did you have any reference
scans like uh to test known structures?
>> Yes, we have tested a lot of structures.
We we started the experiments in laboratory.
laboratory.
The laboratory is my garage
and um we uh simulated RA signals.
We simulated the vibrations and we have
represented things that were below
underneath the table of the experiments.
So we put objects below the table and we
were representing the objects just
looking things from the top of the table.
table.
>> Can you send me pictures so I can insert
this into the Yes.
>> would be nice.
>> Yes. Erh and then once we realized that
that the technique was working, we moved
into the space and we made a lot of
experiments on mines
uh to tunnels um
um
uh the the physics laboratory that is
located in Italy under the mountain
called the Grand Saso. the Grand Saso.
Inside the Grand Saso, there is a huge
laboratory, phys physics laboratory
where they study the neutrinos.
And so we have depicted the um
the the the
structure. Yes, the internal structure
of this laboratory. That was very exciting.
exciting.
Um, can you see through well probably
it's not an accurate question but can
tell can you see through water?
>> Okay, that's very important. Uh, at the
moment no but I am working uh also on
this task. I don't know if I will
uh be successful because water is a bit
tricky because the the noise uh the
superficial noise of water has a
statistical behavior that it is a bit
complicated. It's not just a gion. It is
something that uh I have to realize
first which kind of of um
uh statistical bea behavior uh the model
of the statistical behavior of the waves
that are that are um >> captured.
>> captured.
>> Yes, that that are capt captured from
the surface. So it's a bit uh difficult
but I want I am working on that. Did you
did you scan the the Osiris shaft?
>> We scanned the Osiris shaft and I forgot
to tell you. Yes, we we scanned the
Osiris shaft and we found high high
correlation with respect to the uh
ground root
>> because it has a huge water table on the bottom.
bottom.
>> Yes, we found also the water table.
Yesterday I I spoke about the water
table. We found the water table. There is
is
probably is that probably because if you
in any measurement that you make if you
don't go in C2 to um to uh see if you
are right that your measurements are are
compliant to your expectation. You will
never know the truth.
If I remember correctly from your
presentation, you also seen uh pillars
or or more structures under the Oiris shaft.
shaft.
>> Absolutely. Yes.
>> But how could you see those if there is
a water table under
>> the water table? The water table gives
you only an attenuation of the energy
and enough. Okay.
>> But you continue to see because the
water table does not affect your
measurements. So it's not degrading till
the noise ratio
>> can degrade the energy. >> Okay.
>> Okay.
>> No, the water table is
is there. Don't worry. you can measure things
things
>> until I suppose until it's it's
downgraded till the signal noise ratio
because then you have just noise
probably which you cannot
>> the water table can also could also
um make your measurements better
>> amplify it
>> amplify I don't know I don't I don't
think filter filter it
>> because water is a filter yes I agree
with you amplify no because they they
perform a a
an attenuation of the energy that you
are receiving on the top from the top. >> Mhm.
>> Mhm.
>> But they will they will do as a filter.
They will the water will apply a filter
on your image
>> like a mechanical filter basically in
terms of the vibrations. >> Yes.
>> Yes.
>> And it you can reflect this or it will
be reflected in the signal you capture.
I I suppose >> um
>> um
I will send to you my scans and you will
see that the water table will give you
an attenuation of the signal. And so we
are able also to see the exact position
of the of where the water table begins.
And we see that the structures are going
below the water the the water table.
We don't know why.
>> We don't know why.
>> Is this technology used uh today
somewhere else
>> or it's it's your proprietary technology which
which
>> for the moment is mine.
>> Okay. If somebody is uh we are
collaborating with Stanford University
in uh in the person of professor Howard
Zeper that who is
um full professor former professor at
the University of uh Stanford
and uh probably he is trying he is
working on uh replicating the
experiments that for me is
in my personal view.
>> Okay. So basically it's a it's a
software right?
>> Basically it's made it's made you have
to apply maths mathematics signal
processing procedure on data and to do
this you need a software you have to de
you have to develop your software your
own software.
>> I know that. Yeah
>> because if you know the mathematics that
is inside this procedure you it it is
very simple to reproduce
>> it. Exactly. I'm doing the same with the bases.
bases.
>> Yes, basically.
>> What's the next step?
GPU.
>> No, I mean what's what's the next step
in terms of measurements?
>> Yes, it was something.
>> But if if you uh brought it up, are you
using like a GPU? I am using CPU because
I'm not able to program in CUDA.
>> It's my it's my limitation but
>> I have to it will be better to uh trans
to translate the code into
using GPUs.
>> Are you using MATLAB or Python?
>> MATLAB and MATLAB
>> only MATLAB.
>> Uh if if you switch to Python Yeah. And
if you use the PyTorch PyTorch it's
basically for PyTorch is wonderful. Yes.
>> And you can easily transfer every matrix
to CUDA course and and it's it's
>> maybe we will speak okay
>> about this.
>> I I can recommend Python
>> because in MATLAB GPU GPU array does not work.
work.
>> Yeah, it's it's not not really not
really CUDA compatible.
>> No, but I I did use uh PyTorch for
narrow networks and other stuff and it's amazing.
amazing.
>> Okay, thank you. So what's what's the
next step in in terms of research like
did you scan other pyramids as well like
the lahun or or uh step pyramid?
>> No we we have we are receiving a lot of
requests in terms of uh this kind of
things but the important thing to say is
this the caf pyramid project has to
concentrate uh energy on this project.
So this project probably will finish in
2026 approximately in uh June when we
are doing the last conference in Verona
uh and then in that time we announce the
end of the project. So
we we will give the disco other
discoveries of course but we will
announce the end of the project. Then
after we finish it the we will finish
the uh or we have finished the um uh
project on Giza we move to other sites.
May maybe Armando can give us uh help in
find other nice uh sites. Of course,
there are lots of uh monuments that are
really interesting all around the world.
>> How are >> uh
>> uh also
also
but in South America for example, Teot
Wakan is a very very interesting site.
But also in uh Peru, Sakuoman and Machu
Picchu, we already had received an
invitation to move to Machu Picchu from
a group of research that is working uh
on the field because they found the
labyrinth beneath the city. They are
looking for the entrance. Some of them
they already found but are sealed. So
they believe that there are other
entrances. So and they ask us to support
the group with the satellites.
So I believe that when we finished our
job in uh at Giza, we will move very
likely towards South America and also
toward the the pyramids in China.
>> Also the
>> that are because our team leader is
interested to know more about the
pyramids that were built in China. There
are also the Bos Bosnian pyramids that
where there is Sam and Christina ready
that uh they are good nice very nice
>> but I believe that there are other two
uh sites that are really interesting and
partially connected with the Giza
plateau because of the shape of the lion
that characterize these two sides. The
first is Buchi in Romania and the second
is Balokanost in Pakistan because I
believe that where there is a lion there
is a possible mega structures underneath
because the lion is a kind of uh
indicator. So I believe that these sites
could be very interesting to know more
about the lost civilization that lived
on earth in the distant past and maybe
under the this sites could be other
city in the underground.
>> Did you find anything under the swings? >> Yeah.
>> Yeah. >> Yes.
>> Yes. >> Like
>> Like
>> yesterday I I I also explained what we
found under the swings. We have one
pillar and we have um a a um one pillar
that goes underneath a lot. We have a
chamber that is located uh at the end of
uh the scan. So also here um 1 kilometer
below and uh between the the surface and
the bottom we have another intermediate chamber
chamber
at the um at uh intermediate um and then
there are connections to other things
other facilities that for now is like that.
that.
Another site very interesting in is in
South Pacific
uh in Northfor Island uh I'm supporting
a team of research that is on the field
because we discovered in 2019
u megalytic site on the island that
seems to be very very ancient
and connected with the sky because they
have the same shape. Some uh sides,
megalithic site that one of them we
called the temple of the sun because of
some uh characteristics and features of
the monument
a features this the temple that look
like uh the Germany constellation.
And we made [Music]
[Music]
an analysis with the the celestial vault
uh according to using the the software
of astronomical simulation and we obtain
an interesting result that seems to date
the site at at least uh 32,000
years ago. There are also many other
interesting sites maybe also a kind of
stone age in the forest.
Uh so it's very very interesting place
that uh I hope to investigate in the
next year.
>> I forgot to ask. Sorry about that. But
what's your background actually?
>> My background is an academic background.
Of course I'm an historian. I graduated
at the University of Naples. uh the
Federico II that is one of the most
ancient in Europe and uh they I started
from my study from the academic field
but studying the Giza plateau of course
but when I understood that something in
the hypo official hypothesis
uh seem in my opinion are incorrect or
doesn't match with the reality
I prefer to move following the alternative
alternative
uh research applying multi-disiplinary
model of investigation that as I
explained before are connected with
science. for astronomy, mathematic,
physics, geology and so on. And through
these patterns, I achieved some
interesting uh results that are helping
us to move forward in the detection of
Giza and uh restoring the ancient story
of this planet.
>> Did the scan pyramids team re out
reached out to you during your research?
I don't know but we I want to
say that I'm we are open uh to the
collaboration with all people interested
in supporting our investigation.
So we are open also to a possible
cooperation with the scan pyramid. Uh as
you know at the Joe Rogan experience,
Zakya was uh told that he was uh open to
meet us for a discussion on that matter
and we are open to discuss with him too
and I have to say that we are we can't
wait to meet him at the GDX conference
in Dubai in November on November where
we are uh speakers uh also because the
promoter of the conference are preparing
a round table with them to discuss about
the our research of course of this company.
company.
>> It's already scheduled.
>> Yeah, it's already scheduled on 8th and
9th of November.
>> Nice. And I have to say that we are very
happy to meet him also because I have a
great respect for Zakyawas that in my
opinion made a great job for his country
and for history. Uh because of the many
um discovers he made
on the field that help us to better
understand the background of the
Egyptian dynastic civilization. We have
a different opinion on the gizopto but
this is not a limit but it's of course
the base to move and to push uh to to to
to can help us to make a step be uh beyond
beyond
>> even the discovery of the the past of
our civilization.
>> Even if you have different opinions on
things you can have a constructive
collaboration. Yes, the collaboration is
could help us to to move forward.
>> I'm I'm a bit surprised that uh the scan
pyramids didn't reach out to you because
according to my knowledge they are
pioneering this mon technology to discovering voids. Yes, the scum pyramid
discovering voids. Yes, the scum pyramid uh the they applied the technology that
uh the they applied the technology that was used for the first time in 19767
was used for the first time in 19767 by an American physicist Luis Alver
by an American physicist Luis Alver that uh applied the moon technology to
that uh applied the moon technology to the Cafrey pyramid but with any results
the Cafrey pyramid but with any results also because the in at that time the
also because the in at that time the technology was uh at the beginning. So,
technology was uh at the beginning. So, but in the time the chairman for example
but in the time the chairman for example of the University of Tokyo between 2011
of the University of Tokyo between 2011 in 2013 made uh other experiments inside
in 2013 made uh other experiments inside the pyramids partly in the pyramid of
the pyramids partly in the pyramid of Kafra and uh they
Kafra and uh they discovered
discovered uh a possible void at 73 m over the Boni
uh a possible void at 73 m over the Boni chamber. But they didn't move forward in
chamber. But they didn't move forward in this kind of exploration
this kind of exploration and so all the projects stopped and now
and so all the projects stopped and now since 2015 the scam pyramid is detecting
since 2015 the scam pyramid is detecting the caf the kops pyramid and now also
the caf the kops pyramid and now also the kafra pyramid and they announced the
the kafra pyramid and they announced the discover of a possible big void inside
discover of a possible big void inside the great pyramid
the great pyramid >> above the the grand gallery. Right.
>> above the the grand gallery. Right. >> Yes. But uh after 10 years we know
>> Yes. But uh after 10 years we know anything about the structures of the big
anything about the structures of the big void. Uh I think that a couple of weeks
void. Uh I think that a couple of weeks ago Zaga was announced the possible
ago Zaga was announced the possible exploration of the big void.
exploration of the big void. >> He was talking about new new
>> He was talking about new new inscriptions they found.
inscriptions they found. >> Yeah. So in the chamber in one of the
>> Yeah. So in the chamber in one of the chambers of the gem that is the
chambers of the gem that is the structures that are on the king's
structures that are on the king's chambers inside the great pyramid
chambers inside the great pyramid and I was saying I hope that uh finally
and I was saying I hope that uh finally the exploration of the big void starts
the exploration of the big void starts because we are very interesting to know
because we are very interesting to know more about this environment that uh the
more about this environment that uh the scampy discovered. I hope this is not
scampy discovered. I hope this is not another announcement without any
another announcement without any consequence.
consequence. >> Do you know why they couldn't find those
>> Do you know why they couldn't find those chambers you found with the MON detector
chambers you found with the MON detector >> in uh in in the study that we made uh on
>> in uh in in the study that we made uh on the Kops pyramid me and Colorado? We
the Kops pyramid me and Colorado? We found the big void and we put in our we
found the big void and we put in our we allocate in our 3D model that is visible
allocate in our 3D model that is visible on the paper the big void. There is the
on the paper the big void. There is the big void and it is on on the top of the
big void and it is on on the top of the grand gallery. We measure it the length,
grand gallery. We measure it the length, the height and the width of the big void
the height and the width of the big void and is written all on the paper. But
and is written all on the paper. But they they also used their mon technology
they they also used their mon technology but they couldn't find those.
but they couldn't find those. >> No, they
>> No, they >> like the other chambers you you found.
>> like the other chambers you you found. >> I I tell you the moon scan that I
>> I I tell you the moon scan that I respect that technique and the research
respect that technique and the research group that they are working using the
group that they are working using the moon scan. So the oldest scan pyramid
moon scan. So the oldest scan pyramid pro project and I respect Sagawas.
pro project and I respect Sagawas. The problem the problem of the moon scan
The problem the problem of the moon scan is this that you have some plates that
is this that you have some plates that you have to uh um that you have to
you have to uh um that you have to arrange where you want to scan. Okay,
arrange where you want to scan. Okay, >> just for the audience it's like
>> just for the audience it's like detecting the cosmic particles coming
detecting the cosmic particles coming through the the mega structure
through the the mega structure >> from the universe to the earth inside
>> from the universe to the earth inside the structures. Yeah,
the structures. Yeah, >> the particles are neutrinos are neutral
>> the particles are neutrinos are neutral and so they pass the matter but passing
and so they pass the matter but passing the matter they can record if there is a
the matter they can record if there is a void or something like that
void or something like that >> like delayed or shifted. Yes, it's
>> like delayed or shifted. Yes, it's shifted or delayed and they arrive to
shifted or delayed and they arrive to the plate and the plate will record the
the plate and the plate will record the the plot like a plot
the plot like a plot >> and also there you you leave for some
>> and also there you you leave for some time those plates they record this the
time those plates they record this the the direction of arrival of moons and
the direction of arrival of moons and also in this case using a tomographic
also in this case using a tomographic inversion based on fraform you can
inversion based on fraform you can rebuild the what there is on the
Yes, we but we but approximately but we have a problem that the moon scan cannot
have a problem that the moon scan cannot detect things that are located
detect things that are located underneath because you have to go
underneath because you have to go physically to install those plates. So
physically to install those plates. So they can detect things that are located
they can detect things that are located from the plates to the universe.
from the plates to the universe. >> But if they placed I don't know I don't
>> But if they placed I don't know I don't know exactly where did they place the
know exactly where did they place the plates. I was when I was in the Chaops
plates. I was when I was in the Chaops pyramid, I've seen those plates in the
pyramid, I've seen those plates in the queen uh queen's chamber.
>> also in the king chambers. >> Yeah. So I assume if they place the the
>> Yeah. So I assume if they place the the detectors there, they could find those
detectors there, they could find those rooms which you found
rooms which you found >> from there to the top.
>> from there to the top. >> Yeah. They are above the
>> Yeah. They are above the >> Yes. Usually in in my personal opinion,
>> Yes. Usually in in my personal opinion, I am not them. They are performing a
I am not them. They are performing a scanning. So they they detect something
scanning. So they they detect something on on a position. They then they move
on on a position. They then they move the plates on a on another position and
the plates on a on another position and regularly they are uh they are observing
regularly they are uh they are observing regularly at different at different uh
regularly at different at different uh locations.
locations. >> So to try and find something that can be
>> So to try and find something that can be uh that can recast into the so-called
uh that can recast into the so-called big void. Yes. Also the moon scan the
big void. Yes. Also the moon scan the the scan pyramid said that there is a
the scan pyramid said that there is a big void located on the top of the grand
big void located on the top of the grand gallery but they don't know exactly the
gallery but they don't know exactly the position and the orientation of this big
position and the orientation of this big void.
void. >> Mhm.
>> Mhm. >> Okay.
>> Okay. >> Okay. Because the the plates were always
>> Okay. Because the the plates were always moving and shifting around. I don't
moving and shifting around. I don't >> I would assume they can calculate the
>> I would assume they can calculate the location based on the place position but
location based on the place position but >> uh in my personal opinion they do
>> uh in my personal opinion they do several uh measurements. So that means
several uh measurements. So that means you need a lot of time
you need a lot of time >> because to perform to the tomographic
>> because to perform to the tomographic inversion you have to behave to you have
inversion you have to behave to you have to be compliant always to the sampling
to be compliant always to the sampling theorem
theorem to the sampling theorem.
to the sampling theorem. Exactly.
Exactly. >> So you need a lot of time and a lot of
>> So you need a lot of time and a lot of measurements because you have to comply
measurements because you have to comply the sampling theorem because you then
the sampling theorem because you then you have to perform their tomographic
you have to perform their tomographic inversion to uh see what there is from
inversion to uh see what there is from the blades from the blades to the top.
the blades from the blades to the top. We do something different. We watch
We do something different. We watch things from the surface underneath. And
things from the surface underneath. And in my version is more efficient.
Um what is your estimated limit
what is your estimated limit of depth? You can
of depth? You can >> the Doppler frequencies, the Doppler
>> the Doppler frequencies, the Doppler bandwidth
bandwidth >> if if you're talking about uh numbers or
>> if if you're talking about uh numbers or meters for example like like one
meters for example like like one kilometer or what's what's the
kilometer or what's what's the >> in my opinion the maximum is 5
>> in my opinion the maximum is 5 kilometers.
kilometers. >> 5 km.
>> 5 km. >> Yes.
>> Yes. >> Okay.
>> Okay. >> If we uh if we
>> If we uh if we I tell you something that I have in my
I tell you something that I have in my mind.
mind. >> Okay. And this is a personal uh a
>> Okay. And this is a personal uh a personal conversation that I can uh send
personal conversation that I can uh send to who u to the owners of the satellite
to who u to the owners of the satellite systems. If we are able to build a
systems. If we are able to build a satellite uh tailored with my technique,
satellite uh tailored with my technique, we can do we can do also we can go also
we can do we can do also we can go also deeper a lot
deeper a lot >> twice. Oh yes, also three times more.
>> twice. Oh yes, also three times more. It is necessary, I can tell you. It is
It is necessary, I can tell you. It is not a secret. It is necessary to um rise
not a secret. It is necessary to um rise the frequency of the radar from X the X
the frequency of the radar from X the X band to the KA band according to the um
band to the KA band according to the um to the
to the transparency window of the atmosphere.
transparency window of the atmosphere. But you can do it. So you move from the
But you can do it. So you move from the Xband to the KA or KO or KA B band. So
Xband to the KA or KO or KA B band. So you have more Doppler Doppler bandwidth
you have more Doppler Doppler bandwidth and then you can also um
and then you can also um enlarge the studring effect of your
enlarge the studring effect of your spotlight
spotlight um bringing uh bringing uh maybe uh 30
um bringing uh bringing uh maybe uh 30 seconds of integration time. You can do
seconds of integration time. You can do it. And then the third thing the third
it. And then the third thing the third thing that it it is necessary to do is
thing that it it is necessary to do is to perform S acquisition per perfectly
to perform S acquisition per perfectly that has nons that has not sense in SAR
that has nons that has not sense in SAR perfectly
perfectly uh vertical
uh vertical that has not sense in SAR. So who is
that has not sense in SAR. So who is expert of SAR is now laughing. I know. I
expert of SAR is now laughing. I know. I know. But doing like that you will be
know. But doing like that you will be very s sensible with my technique.
very s sensible with my technique. >> Okay. And are you planning on building
>> Okay. And are you planning on building your own system?
your own system? >> I I am. Yes. Yes. If I find somebody
>> I I am. Yes. Yes. If I find somebody that can uh who I can work together,
that can uh who I can work together, maybe he can.
maybe he can. >> Elon Musk. Maybe
>> Elon Musk. Maybe >> Elon I I you are my might. No. But if he
>> Elon I I you are my might. No. But if he wants to to contact me, I am always uh
wants to to contact me, I am always uh with him. If because
with him. If because >> maybe we can move to Mars.
>> maybe we can move to Mars. >> We can move to Mars
>> We can move to Mars >> or Joe Rogan. I think he would very
>> or Joe Rogan. I think he would very invited to the Joe podcast so far.
invited to the Joe podcast so far. >> I think no. I think no
>> I think no. I think no >> because he talked about you.
>> because he talked about you. >> I don't check my email a lot of
>> I don't check my email a lot of >> regularly.
>> regularly. >> Regularly because I
>> Regularly because I >> I know that.
>> I know that. >> Yes. I am a bit uh old style you know I
>> Yes. I am a bit uh old style you know I have uh the passion of uh hi-fi systems
have uh the passion of uh hi-fi systems valve valves hi-fi systems I am a bit
valve valves hi-fi systems I am a bit old style
old style >> ven like that so I I am not checking
>> ven like that so I I am not checking regularly my email but if he he wants
regularly my email but if he he wants any Elon Musk Joe Rogan if they want
any Elon Musk Joe Rogan if they want they can also uh phone me is
or send me an email but I have to check the email regularly.
the email regularly. >> Um on this project
>> Um on this project you working alone I I I mean you are
you working alone I I I mean you are financing this research or you are or is
financing this research or you are or is there university behind you or or
there university behind you or or >> we are doing everything with our
>> we are doing everything with our expense.
expense. >> Yeah.
>> Yeah. >> Yeah.
>> Yeah. >> So you you are financing your own own
>> So you you are financing your own own work. Yeah.
work. Yeah. >> That's that can be tough.
that can can be tough. Are you planning on creating any association for this
on creating any association for this research or
research or >> we we are planning to have to to build
>> we we are planning to have to to build up a foundation maybe to receive
up a foundation maybe to receive donations from the people.
donations from the people. >> Yes.
>> Yes. I personally I am closing some some
I personally I am closing some some pending situation that I have personally
pending situation that I have personally in order to move with together with
in order to move with together with Colorado with Armando and Nicole Chico
Colorado with Armando and Nicole Chico that she is the um
that she is the um YouTuber let's say of our research group
YouTuber let's say of our research group uh uh to build up a foundation.
uh uh to build up a foundation. >> Okay. So you're planning on this on full
>> Okay. So you're planning on this on full time?
time? >> Yes. Yes.
>> Yes. Yes. Nice. Um,
Nice. Um, thank you. Thank you for this
thank you. Thank you for this conversation. It was very um amazing and
conversation. It was very um amazing and interesting to hear about this in person
interesting to hear about this in person because I've read a lot of things about
because I've read a lot of things about this research and uh and it it was
this research and uh and it it was actually there are a lot of confusions
actually there are a lot of confusions on the internet and uh I couldn't find
on the internet and uh I couldn't find the the right information or source of
the the right information or source of information for the questions. Yes, the
information for the questions. Yes, the confusion came from people who don't
confusion came from people who don't understand how the techniques works
understand how the techniques works because the experts of S for example
because the experts of S for example uh don't say anything until now
uh don't say anything until now >> have never discussed our technology. So
>> have never discussed our technology. So the confusion came from the bankers that
the confusion came from the bankers that didn't know anything. Yeah,
didn't know anything. Yeah, >> they don't know anything about
>> they don't know anything about S technology and doler tomography.
S technology and doler tomography. >> Yeah. And also I I don't know I've seen
>> Yeah. And also I I don't know I've seen a I don't remember the name of the
a I don't remember the name of the channel. There was a physicist woman.
channel. There was a physicist woman. >> Ah yes. Who was
>> Ah yes. Who was >> exactly?
>> exactly? >> What did you think about that video?
>> What did you think about that video? My my indicator is uh the she she made
My my indicator is uh the she she made the indicator indicator. It is
the indicator indicator. It is uh
uh my what I can say
my what I can say >> she she she misunderstood it or she
>> she she she misunderstood it or she doesn't even
doesn't even >> I don't know
>> I don't know >> understand
>> understand >> it is a pity because uh maybe uh she she
>> it is a pity because uh maybe uh she she should call me. No, we should discuss
should call me. No, we should discuss together the thing without doing those I
together the thing without doing those I in my personal opinion with the
in my personal opinion with the education that my parents gave me I
education that my parents gave me I would never make something like that
would never make something like that never because my of my education that
never because my of my education that gave me my parents that now they are
gave me my parents that now they are that both no I never it is unrespectable
that both no I never it is unrespectable I am very polite so I went to to a
I am very polite so I went to to a lawyer where we we are now we want to uh
lawyer where we we are now we want to uh port take her to the court.
port take her to the court. >> Really?
>> Really? >> Yes.
>> Yes. >> Yes.
>> Yes. >> Yes.
>> Yes. >> We are now
>> We are now >> her some other uh
>> her some other uh >> no Google Google that is the editor of
>> no Google Google that is the editor of that uh of that we are
that uh of that we are >> I don't want site them because I don't
>> I don't want site them because I don't >> we have already injured Google because
>> we have already injured Google because it is the editor of YouTuber of YouTube
it is the editor of YouTuber of YouTube and it and YouTube is the editor of
and it and YouTube is the editor of Sabin.
Sabin. >> Uhhuh. Are you you mean the sponsor?
>> Uhhuh. Are you you mean the sponsor? >> Yes. The editor
>> Yes. The editor they are on the server of Google. No, we
they are on the server of Google. No, we enjoy Google.
enjoy Google. >> I but I
>> I but I >> Google
>> Google mix with Sabine. I don't know what but
mix with Sabine. I don't know what but we are
we are >> because of Sabine. We are enduring
>> because of Sabine. We are enduring Google.
Google. >> Really?
>> Really? >> Yes. Did she make a huge uh effect on on
>> Yes. Did she make a huge uh effect on on your
your >> I I have my parents that gave me an
>> I I have my parents that gave me an education and I will never could never
education and I will never could never say something a indicator on
say something a indicator on her. I don't know.
her. I don't know. >> Okay. Yeah.
>> Okay. Yeah. >> It is not
>> It is not >> I understand you. Yeah.
>> I understand you. Yeah. >> Well, YouTube is a free platform. I
>> Well, YouTube is a free platform. I guess
guess sometimes
sometimes >> my lawyer is asking €3
>> my lawyer is asking €3 every
every uh how you say visualization on her uh
uh how you say visualization on her uh video
>> nice >> funding for the research.
>> funding for the research. >> Yeah, exactly. I think that she will
>> Yeah, exactly. I think that she will finance our research. No,
finance our research. No, >> if she's not the only one.
>> if she's not the only one. >> No, there are some
>> No, there are some >> probably not. Probably not.
>> probably not. Probably not. >> Yes. In the list.
>> Yes. In the list. >> Thank you. Thank you again and I wish
>> Thank you. Thank you again and I wish you all the best for the future and uh I
you all the best for the future and uh I hope um maybe we can keep touch um
hope um maybe we can keep touch um regards the regarding the PyTorch and
regards the regarding the PyTorch and >> yes absolutely
>> yes absolutely >> if you have any questions let let me
>> if you have any questions let let me know I will try to help.
know I will try to help. >> We will speak about the FIA transform on
>> We will speak about the FIA transform on GPU.
GPU. >> Okay.
>> Okay. Okay. Probably it's challenging, but I
Okay. Probably it's challenging, but I don't think it's I tell you that it's
don't think it's I tell you that it's challenging.
challenging. >> I don't think it's impossible, but we
>> I don't think it's impossible, but we will see.
will see. >> Thanks.
>> Thanks. >> Thank you, gentlemen.
>> Thank you, gentlemen. >> Thank you. Thank you so much.
>> Thank you. Thank you so much. >> Wish you all the best for the future.
>> Wish you all the best for the future. >> Thank you.
>> Thank you. >> Thank you.
>> Thank you. >> Okay.
>> Okay. You enjoyed it.
You enjoyed it. >> Yeah, it was it was very nice.
>> Yeah, it was it was very nice. A massive thank you to my incredible
A massive thank you to my incredible supporters on Anton Hanzelik Dave
supporters on Anton Hanzelik Dave Varabiovanas Mayor Lud Hake Uncle Chucky
Varabiovanas Mayor Lud Hake Uncle Chucky Sarah Cox Se Baric and Basana. Your
Sarah Cox Se Baric and Basana. Your generosity fuels this journey into
generosity fuels this journey into ancient technology keeping this show
ancient technology keeping this show alive and pushing my research further
alive and pushing my research further than ever as the ancient Egyptians would
than ever as the ancient Egyptians would say.
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