On August 1st, IBM announced that its quantum processor is already ready Quantum Nighthawk. Its release is scheduled for this year, but it was not shown exactly when.
The company is listed in X Publications The chip has 120 ubbit networkseach interconnected with the other four people, which increases the efficiency of quantum circuit execution. The reports don’t clarify that, but they could be physical qubits.
From IBM, they also said, “We hope that the circuit will cycle with 5,000 logic doors this year and climb 15,000 by 2028.”
Unlike classic computers that work with bit It can only have a value of 0 or 1, and quantum computers use qubits. Both values are simultaneously Because of a phenomenon called overlap.
Quantum logic in this framework is an operation that changes the state of one or more qubits, with the more doors the system can execute, The more complicated is the tasks Calculations to be performed.
As reported by IBM, the new processor design features qubits interconnected to the network structure (lattice), search Improves system connectivity and stabilitytwo of the main challenges in the development of functional and scalable quantum hardware.
Milestones in the roadmap to fault-resistant quantum computing
The previously shown advances are part of the roadmap released by IBM on June 11th, reported by Cryptootics, pointing to the development of the first large-scale quantum quantum computer with error resistance that is useful in real-worthiness. No fixed external correction is required.
In that plan, IBM foresees the creation of the system by 2029 Quantum Starling, Includes 200 Logical Cubits You can run the circuit with 100 million logic doors. It should be noted that a logical ulna is constructed using multiple physical qubits to correct internal failures.
The concept of quantum computing failure resistance refers to the ability of a system to continue operating even when some of its physical components exhibits common errors in quantum environments due to the sensitivity of qubits to factors such as temperature or electromagnetic interference.
Beyond the purpose of 2029, IBM is Quantum Blue Jayby 2033 2,000 logic qubits are included It also allows for over 1 billion logic doors to be executed per circuit.
Translated into practical applications, these numbers could potentially solve difficult problems for today’s classic supercomputers, such as complex molecular simulations, large-scale industrial optimization, and advanced automated learning algorithms.
In the following image, you can observe the roadmap proposed by IBM.
Additionally, the company detailed a parallel strategy focused on quantum software, focusing on four areas: applying existing algorithms, discovering new algorithms with quantum advantages, tuning workloads between classical and quantum systems, and accurate and efficient execution.
This refers to Greater interoperability between quantum and classic systemsan important aspect for creating a mixed computing environment that can take advantage of the strengths of each paradigm.
Is IBM’s advancement dangerous for Bitcoin?
Bitcoin-supported encryption based on the ECDSA algorithm (Elliptical Curve Digital Curve Algorithm) is Protect your private key It guarantees the property of the funds. Quantum computing, which has the ability to solve complex mathematical problems, may decrypt this encryption in the future.
However, as explained by Cryptonoticia, IBM quantum development is based on estimates from experts and analysts in the Bitcoiner ecosystem It does not imply a risk of encryption to protect Bitcoin in the short term.
