10:11 a.m.
Hi everyone,
Following fifi 1 and fifi 2 back in July (which I've heard were great successes -- I
was in Greece at the time) we're going to hold "fifi 3" tomorrow on the USI
fifth floor, starting at 12:30. Let's keep the format a little free-form but the idea
is to hear three talks by Lorenzo, myself, and Carla (at 2 o'clock, remotely from
Geneva). Titles and abstracts below.
Let's use the jitsi channel, at least initially. It doesn't always work well for
Carla so we may switch to another online platform if the connection is poor.
https://meet.jit.si/cqi-demon-M6QW9V7YY
Hope to see you tomorrow!
Will
Speaker: Lorenzo Laneve
Title: Quantum signal processing over SU(N)
Abstract: Quantum signal processing (QSP) is a powerful technique that allows one to
implement a polynomial transformation of a unitary matrix given as a controlled black box
and using only one qubit, taking advantage of the geometric properties of SU(2). In this
ansatz, the degree of the polynomial grows linearly with the number of steps. We show
that, by adding more control qubits and black-box access to the powers of two of the
unitary operator, we can achieve polynomial transformations of exponentially growing
degree. These assumptions also hold in the context of many well-known algorithms that
provide super-polynomial advantage over classical algorithms.
Speaker: William Schober
Title: On the notion of controlled gates
Abstract: Controlled gates like CNOT are modeled on their classical counterparts,
conditional statements of the form "if x then do y". In a classical computer
there is an unambiguous distinction between the control bits x and target bits y. The
control bits are read, and the target bits are written to. In a quantum computer this
distinction is arbitrary and depends on a local choice of basis. I'll show some
examples exchanging control and target, and then introduce a formal definition for a
controlled operation. The definition relies on a new(?) mathematical concept I call a
partial eigenvector.
Speaker: Carla Sophie Rieger
Title: QRAM and its Extension
Abstract: I will introduce the basic concepts of a Quantum Random Access Memory (QRAM),
the writing process of classical data in a QRAM state using the Flip-Flop QRAM Algorithm
and an algorithmic QRAM extension procedure that may be used for storing experimental data
available as a time-series of initially undefined length.
7:49 p.m.
Oh no.
I have committed to a meeting tomorrow at 12:00.
If it's short enough, I can perhaps join Carla's talk.
Best,
Charles
Le mer. 4 oct. 2023, à 11 h 11, William Schober <william.schober(a)usi.ch> a
écrit :
Hi everyone,
Following fifi 1 and fifi 2 back in July (which I've heard were great
successes -- I was in Greece at the time) we're going to hold "fifi 3"
tomorrow on the USI fifth floor, starting at 12:30. Let's keep the format a
little free-form but the idea is to hear three talks by Lorenzo, myself,
and Carla (at 2 o'clock, remotely from Geneva). Titles and abstracts below.
Let's use the jitsi channel, at least initially. It doesn't always work
well for Carla so we may switch to another online platform if the
connection is poor.
https://meet.jit.si/cqi-demon-M6QW9V7YY
Hope to see you tomorrow!
Will
Speaker: Lorenzo Laneve
Title: Quantum signal processing over SU(N)
Abstract: Quantum signal processing (QSP) is a powerful technique that
allows one to implement a polynomial transformation of a unitary matrix
given as a controlled black box and using only one qubit, taking advantage
of the geometric properties of SU(2). In this ansatz, the degree of the
polynomial grows linearly with the number of steps. We show that, by adding
more control qubits and black-box access to the powers of two of the
unitary operator, we can achieve polynomial transformations of
exponentially growing degree. These assumptions also hold in the context of
many well-known algorithms that provide super-polynomial advantage over
classical algorithms.
Speaker: William Schober
Title: On the notion of controlled gates
Abstract: Controlled gates like CNOT are modeled on their classical
counterparts, conditional statements of the form "if x then do y". In a
classical computer there is an unambiguous distinction between the control
bits x and target bits y. The control bits are read, and the target bits
are written to. In a quantum computer this distinction is arbitrary and
depends on a local choice of basis. I'll show some examples exchanging
control and target, and then introduce a formal definition for a controlled
operation. The definition relies on a new(?) mathematical concept I call a
partial eigenvector.
Speaker: Carla Sophie Rieger
Title: QRAM and its Extension
Abstract: I will introduce the basic concepts of a Quantum Random Access
Memory (QRAM), the writing process of classical data in a QRAM state using
the Flip-Flop QRAM Algorithm and an algorithmic QRAM extension procedure
that may be used for storing experimental data available as a time-series
of initially undefined length.
10:32 a.m.
Hi everyone,
The old jitsi channel is down. Let's use this for the moment, suggested by Matteo.
https://vc.autistici.org/CQI
Cheers,
Will
________________________________
From: William Schober <william.schober(a)usi.ch>
Sent: Wednesday, October 4, 2023 12:11 PM
To: seminar-cqi(a)lists.usi.ch <seminar-cqi(a)lists.usi.ch>
Cc: Amadori Eleonora <eleonora.amadori(a)studenti.unipd.it>
Subject: [seminar-cqi] fifi 3
Hi everyone,
Following fifi 1 and fifi 2 back in July (which I've heard were great successes -- I
was in Greece at the time) we're going to hold "fifi 3" tomorrow on the USI
fifth floor, starting at 12:30. Let's keep the format a little free-form but the idea
is to hear three talks by Lorenzo, myself, and Carla (at 2 o'clock, remotely from
Geneva). Titles and abstracts below.
Let's use the jitsi channel, at least initially. It doesn't always work well for
Carla so we may switch to another online platform if the connection is poor.
https://meet.jit.si/cqi-demon-M6QW9V7YY
Hope to see you tomorrow!
Will
Speaker: Lorenzo Laneve
Title: Quantum signal processing over SU(N)
Abstract: Quantum signal processing (QSP) is a powerful technique that allows one to
implement a polynomial transformation of a unitary matrix given as a controlled black box
and using only one qubit, taking advantage of the geometric properties of SU(2). In this
ansatz, the degree of the polynomial grows linearly with the number of steps. We show
that, by adding more control qubits and black-box access to the powers of two of the
unitary operator, we can achieve polynomial transformations of exponentially growing
degree. These assumptions also hold in the context of many well-known algorithms that
provide super-polynomial advantage over classical algorithms.
Speaker: William Schober
Title: On the notion of controlled gates
Abstract: Controlled gates like CNOT are modeled on their classical counterparts,
conditional statements of the form "if x then do y". In a classical computer
there is an unambiguous distinction between the control bits x and target bits y. The
control bits are read, and the target bits are written to. In a quantum computer this
distinction is arbitrary and depends on a local choice of basis. I'll show some
examples exchanging control and target, and then introduce a formal definition for a
controlled operation. The definition relies on a new(?) mathematical concept I call a
partial eigenvector.
Speaker: Carla Sophie Rieger
Title: QRAM and its Extension
Abstract: I will introduce the basic concepts of a Quantum Random Access Memory (QRAM),
the writing process of classical data in a QRAM state using the Flip-Flop QRAM Algorithm
and an algorithmic QRAM extension procedure that may be used for storing experimental data
available as a time-series of initially undefined length.
760
days inactive
761
days old
2 comments
2 participants
participants (2)
-
Charles Alexandre Bédard -
William Schober