1.1.
Køber
Officielt navn
:
Københavns Universitet
Køberens retlige status
:
Offentligretligt organ
Den ordregivende myndigheds aktivitet
:
Uddannelse
Fakta om udbudet
EU-nr
Offentliggjort
15.10.2024
Udbudstype
Andre
Udbyder
Københavns Universitet
OPX1000 quantum control & readout system
Københavns Universitet
622895-2024 - Forudgående underretning om direkte tildeling
See the notice on TED website 
622895-2024 - Forudgående underretning om direkte tildeling
Danmark – Instrumenter til måling af elektriske størrelser – OPX1000 quantum control & readout system
OJ S 201/2024 15/10/2024
Bekendtgørelse med henblik på frivillig forudgående gennemsigtighed
Varer
1.
Køber
2.
Procedure
2.1.
Procedure
Titel
:
OPX1000 quantum control & readout system
Beskrivelse
:
Control and measurement of solid-state qubits, extensible to a large number of qubits with high up-times as the project progresses. The system will initially be used for benchmarking and real-time control of spin qubits coupled to microwave resonators, and later be expanded for solid-state QPUs with an increased number of either spin qubits or superconducting qubits. The purchase consists of an OPX1000 control/measurement unit comprising four analog outputs up to 4 GSPS (1500 MHz bandwidth, 16 bit resolution, 0.05-10 GHz), 8 analog outputs at 2 GSPS (up to 5 Vpp), eight digital inputs, and digital outputs, and redundant powersupples. It will match a suite of instruments that have already been ordered at the institute, in order to facilitate seamless compatibility with hardware, software, and handling of large amounts of data.
Identifikator for proceduren
:
9944af91-ef74-41ba-8b8e-2901aedeb19d
Intern ID
:
043-1174/24-7000
Udbudsprocedure
:
Udbud med forhandling uden forudgående offentliggørelse
2.1.1.
Formål
Kontraktens hovedformål
:
Varer
Primær klassifikation
(
cpv
):
38341300
Instrumenter til måling af elektriske størrelser
2.1.2.
Udførelsessted
Landsdel (NUTS)
:
Byen København
(
DK011
)
Land
:
Danmark
2.1.4.
Generelle oplysninger
Retsgrundlag
:
Direktiv 2014/24/EU
5.
Delkontrakt
5.1.
Delkontrakt
:
LOT-0000
Titel
:
OPX1000 quantum control & readout system
Beskrivelse
:
Control and measurement of solid-state qubits, extensible to a large number of qubits with high up-times as the project progresses. The system will initially be used for benchmarking and real-time control of spin qubits coupled to microwave resonators, and later be expanded for solid-state QPUs with an increased number of either spin qubits or superconducting qubits. The purchase consists of an OPX1000 control/measurement unit comprising four analog outputs up to 4 GSPS (1500 MHz bandwidth, 16 bit resolution, 0.05-10 GHz), 8 analog outputs at 2 GSPS (up to 5 Vpp), eight digital inputs, and digital outputs, and redundant powersupples. It will match a suite of instruments that have already been ordered at the institute, in order to facilitate seamless compatibility with hardware, software, and handling of large amounts of data.
Intern ID
:
1
5.1.1.
Formål
Kontraktens hovedformål
:
Varer
Primær klassifikation
(
cpv
):
38341300
Instrumenter til måling af elektriske størrelser
5.1.2.
Udførelsessted
Landsdel (NUTS)
:
Byen København
(
DK011
)
Land
:
Danmark
5.1.6.
Generelle oplysninger
Indkøbsprojekt, der ikke finansieres med EU-midler
Udbuddet er omfattet af aftalen om offentlige udbud (GPA)
:
ja
5.1.10.
Tildelingskriterier
Kriterium
:
Type
:
Kvalitet
Beskrivelse
:
Only one supplier available
Vægtning (pointantal, præcis)
:
1
5.1.15.
Teknikker
Rammeaftale
:
Ingen rammeaftale
Oplysninger om det dynamiske indkøbssystem
:
Intet dynamisk indkøbssystem
5.1.16.
Yderligere oplysninger, mægling og gennemgang
Organisation med ansvar for klager
:
Klagenævnet for Udbud
Organisation, der sikrer adgang til udbudsdokumenterne offline
:
Københavns Universitet
Organisation, der leverer yderligere oplysninger om klageprocedurerne
:
Konkurrence- og Forbrugerstyrelsen
TED eSender
:
Mercell Holding ASA
6.
Resultater
Værdien af alle kontrakter tildelt i denne bekendtgørelse
:
139 984,00
EUR
Direkte tildeling
:
Begrundelse for direkte tildeling
:
Kontrakten kan kun tildeles af en bestemt økonomisk aktør på grund af manglende konkurrence af tekniske årsager
Anden begrundelse
:
The instrument will be driving a network of coherently linked high-frequency qubits and resonators, in order to measure and manipulate the dynamics of complex quantum systems in time domain and react in real time, to develop different strategies towards scalable quantum error correction and fault-tolerant quantum computing hardware. For this, the instantaneous generation of pulse sequences containing an unlimited number of pulses, with varying amplitudes, frequencies, phases, or durations, is an essential capability. Previously, we have developed real-time implementations of Bayesian estimation algorithm for qubit stabilization using related FPGA-powered technology from Quantum Machines, resulting in an improvement of the coherence properties of qubits. Because coherence improvement translates into a significant reduction of qubit overhead for the realization of quantum error correction, for the next generation of research and development we require real-time capabilities that can be expanded to a large number of qubits, leveraging real-time signal generation and measurement capabilities: • Fully programmable FPGA-based pulse sequencing via an intuitive open-source programming language • Comprehensive library of hardware-optimized mathematical functions implementable on the FPGA, e.g., for implementation of real-time Bayesian estimations and error correction • Ability to switch frequency and return by maintaining the phase coherence • Generation of pulse sequences containing an unlimited number of pulses, with parametrically and dynamic control of changes in amplitude, frequency, phase, durations • Control flow and mid-experiment decision making on hardware time ( less than 1 μs) such as conditioning or modifying pulse generation based on measurement results, realizing feedback latency on timescales suitable for the demanding requirements of quantum experiments Significant efforts will be dedicated to optimizing programming libraries and data handling, which we will do in tight collaboration with an identical OPX1000 system that has already been purchased at our institute. In particular, we require the control software to provide • Arbitrary control of sweep parameters utilizing FPGA -based control to perform parameter sweeps without time overhead, including parallel sweeping of multiple parameters • Availability of typical subroutines such as active qubit reset or mid-experiment frequency tracking on arbitrary sequences, and Implementation of randomized benchmarking protocols • Extensibility without support from hardware supplier The development of fault-tolerant quantum computing hardware at NQCP during phase 1 is intentionally qubit-implementation-agnostic on many levels, as we expect drastic advances in qubit implementations during phase 1. We currently cannot predict which qubit technology will be the focus during Phase 2 of NQCP. We require qubit control systems that are forward compatible towards quantum error correction and logic qubit operations using cryogenic solid state qubits with an increasing number of qubits. These systems must meet our needs during Phase 1, but should also be useful within a different mission in Phase 2. Unique capabilities of the OPX1000 system that are crucial for our program have been listed, and Quantum Machines is the only supplier that can supply a control system that is fully compatible with the 1st OPX1000 system that will be established at NQCP.
6.1.
Resultat delkontrakt-ID
:
LOT-0000
6.1.2.
Oplysninger om vinderne
Vinder
:
Officielt navn
:
Q.M Technologies Ltd.
Tilbud
:
Tilbud – Identifikator
:
QM quote 00001122
ID for delkontrakt eller gruppe af delkontrakter
:
LOT-0000
Kontraktoplysninger:
Identifikator for kontrakten
:
043-1174/24-7000
Datoen for udvælgelsen af det vindende tilbud
:
07/10/2024
8.
Organisationer
8.1.
ORG-0001
Officielt navn
:
Københavns Universitet
Registreringsnummer
:
29979812
Postadresse
:
Nørregade 10
By
:
København K
Postnummer
:
1165
Landsdel (NUTS)
:
Byen København
(
DK011
)
Land
:
Danmark
Enhed
:
Bettina Petersen
Telefon
:
+45 35327223
Denne organisations roller
:
Køber
Organisation, der sikrer adgang til udbudsdokumenterne offline
8.1.
ORG-0002
Officielt navn
:
Klagenævnet for Udbud
Registreringsnummer
:
37795526
Postadresse
:
Nævnenes Hus, Toldboden 2
By
:
Viborg
Postnummer
:
8800
Landsdel (NUTS)
:
Vestjylland
(
DK041
)
Land
:
Danmark
Telefon
:
+45 72405600
Denne organisations roller
:
Organisation med ansvar for klager
8.1.
ORG-0003
Officielt navn
:
Konkurrence- og Forbrugerstyrelsen
Registreringsnummer
:
10294819
Postadresse
:
Carl Jacobsens vej 35
By
:
Valby
Postnummer
:
2500
Landsdel (NUTS)
:
Byen København
(
DK011
)
Land
:
Danmark
Telefon
:
+45 41715000
Denne organisations roller
:
Organisation, der leverer yderligere oplysninger om klageprocedurerne
8.1.
ORG-0004
Officielt navn
:
Q.M Technologies Ltd.
Registreringsnummer
:
40297561
By
:
Ballerup
Postnummer
:
2750
Landsdel (NUTS)
:
Københavns omegn
(
DK012
)
Land
:
Danmark
Telefon
:
+49 17649441896
Denne organisations roller
:
Tilbudsgiver
Vinder af disse delkontrakter
:
LOT-0000
8.1.
ORG-0005
Officielt navn
:
Mercell Holding ASA
Registreringsnummer
:
980921565
Postadresse
:
Askekroken 11
By
:
Oslo
Postnummer
:
0277
Landsdel (NUTS)
:
Oslo
(
NO081
)
Land
:
Norge
Enhed
:
eSender
Telefon
:
+47 21018800
Fax
:
+47 21018801
Denne organisations roller
:
TED eSender
11.
Oplysninger om bekendtgørelsen
11.1.
Oplysninger om bekendtgørelsen
Bekendtgørelsens ID
:
e88b5c0d-357a-47b8-91ee-c07135517a0c
-
01
Formulartype
:
Forudgående underretning om direkte tildeling
Bekendtgørelsestype
:
Bekendtgørelse med henblik på frivillig forudgående gennemsigtighed
Bekendtgørelsesundertype
:
25
Afsendelsesdato for bekendtgørelsen
:
14/10/2024
10:16:36 (UTC)
Dato for afsendelse af bekendtgørelsen (eSender)
:
14/10/2024
10:30:54 (UTC)
Bekendtgørelsens officielle sprog
:
dansk
11.2.
Oplysninger om offentliggørelsen
Bekendtgørelsesnummer
:
622895-2024
EUT-S-nummer
:
201/2024
Offentliggørelsesdato
:
15/10/2024