It's been so long since I last drew an E/R diagram, I got things mixed up with UML class diagrams
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It's been so long since I last drew an E/R diagram, I got things mixed up with UML class diagrams

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рд╡реИрдХреБрдгреНрдардорд╛рди рдЪрддреБрд░реНрд╡реЗрджреА
рд╡реИрдХреБрдгреНрдардорд╛рди рдЪрддреБрд░реНрд╡реЗрджреАрдХреЛ рдЬрд╡рд╛рдиреА рддрдореНрдмрд╛рдЦреБрдХреЛ рдЖрджрдд рд░ рдЪреБрд░реЛрдЯрдХреЛ рдзреБрд╡рд╛рдБрдорд╛ рдЙрдбреНрдпреЛред рдХрд╕реИрдХреЛ рдЕрд░реНрддреА рдЙрдкрджреЗрд╢ рдирд╕реБрдиреНрдиреЗ, рдЖрдлреНрдиреИ рдЕрд╣рдЩреНрдХрд╛рд░рдорд╛ рд░рдорд╛рдЙрдиреЗ рдЙрдирдХреЛ рдмрд╛рдиреА рдерд┐рдпреЛред 'рдХреЗ рд╣реБрдиреНрдЫ рдд рдорд▓рд╛рдИ?' рднрдиреНрдиреЗ рджрдореНрдн рдкрд╛рд▓реЗрд░ рдЙрдиреА рдЦрд░рд╛рдм рдЖрджрдд рдкрд╛рд▓рдирдорд╛ рдиреИ рд░рд╣реЗред
рдЙрдореЗрд░ рдЫрдБрджрд╛ рдд рд╢рд░реАрд░рд▓реЗ рдЦрдкреНрдпреЛ, рдЦрд╛рд╕реИ рд╕рдорд╕реНрдпрд╛ рджреЗрдЦрд┐рдПрдиред рддрд░, рдЙрдореЗрд░ рдврд▓реНрдХрд┐рдБрджреИ рдЬрд╛рдБрджрд╛ рдЙрдирдХреЛ рдлреЛрдХреНрд╕реЛрдорд╛ рджрдорд▓реЗ 'рдкрд┐рдЖрд░ рдкрд╛рдпреЛ', рд░ рдмрд┐рд╕реНрддрд╛рд░реИ рдирд┐рдореЛрдирд┐рдпрд╛рд▓реЗ рдЧрд╛рдБрдЬреНрдпреЛред рддреНрдпрд╕рдорд╛рдерд┐ рд╕рд╣рд░рдХреЛ рд╡рд┐рд╖рд╛рдХреНрдд рд╡рд╛рдпреБрдкреНрд░рджреВрд╖рдг! рд╕реНрд╡рд╕реНрде рдорд╛рдиреНрдЫреЗ рдд рдмрд┐рд░рд╛рдореА рдкрд░реНрди рдерд╛рд▓реЗрдХреЛ рддреНрдпреЛ рдмреЗрд▓рд╛, рдПрдХ рд╕рд╛рдБрдЭ рдмрд╛рд╣рд┐рд░ рдирд┐рд╕реНрдХрд┐рдПрдХрд╛ рд╡реИрдХреБрдгреНрдардорд╛рдирд▓рд╛рдИ рдмреЗрдореМрд╕рдореА рдЕрд╕рд┐рдирд╛рдкрд╛рдиреАрд▓реЗ рдпрд╕рд░реА рдЪреБрдЯреНрдпреЛ рдХрд┐ рдЙрдиреА рд╕рдбрдХрдореИ рдЗрдиреНрддреБ рди рдЪрд┐рдиреНрддреБ рднрдПрд░ рдврд▓реЗред
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QuanUML: Development Of Quantum Software Engineering
Researchers have invented QuanUML, a new version of the popular Unified Modelling Language (UML), advancing quantum software engineering. This new language is designed to make complicated pure quantum and hybrid quantum-classical systems easier to model, filling a vital gap where strong software engineering methods have not kept pace with quantum computing hardware developments.
The project, led by Shinobu Saito from NTT Computer and Data Science Laboratories and Xiaoyu Guo and Jianjun Zhao from Kyushu University, aims to improve quantum software creation by adapting software design principles to quantum systems.
Bringing Quantum and Classical Together
Quantum software development is complicated by quantum mechanics' stochastic and non-deterministic nature, which classical modelling techniques like UML cannot express. QuanUML directly solves this issue by adding quantum-specific features like qubits, the building blocks of quantum information, and quantum gates operations on qubits to the conventional UML framework. It also shows entanglement and superposition.
QuanUML advantages include
By providing higher-level abstraction in quantum programming, QuanUML makes it easier and faster for developers to construct and visualise complex quantum algorithms. Unlike current methods, which require developers to work directly with low-level frameworks or quantum assembly languages.
Leveraging Existing UML Tools: QuanUML expands UML principles to make it easy to integrate into software development workflows. Standard UML diagrams, like sequence diagrams, visually represent quantum algorithm flow, improving comprehension and communication.
A major benefit of QuanUML is its comprehensive support for model-driven development (MDD). Developers can create high-level models of quantum algorithms instead of focussing on implementation details. This structured and understandable representation increases collaboration and reduces errors, speeding up quantum software creation and enabling automated code generation.
The language's modelling features can be used to visualise quantum phenomena like entanglement and superposition using modified UML diagrams. Visual clarity aids algorithm comprehension and debugging, which is crucial for gaining intuition in a difficult field. Quantum gates are described as messages between lifelines, whereas qubits are represented as <> lifelines to differentiate between single-qubit asynchronous communications and multi-qubit synchronous/grouping messages and control relationships. Quantum experiments with probabilistic state collapses use asynchronous signals to end qubit lifelines.
QuanUML simplifies theory-to-practice transitions by combining algorithmic design with quantum hardware platform implementation. Abstracting low-level implementation details allows developers focus on algorithm logic, boosting design quality and development time.
Two-Stage Workflow: QuanUML uses high-level and low-level models. High-level modelling of hybrid systems uses UML class diagrams with a <> archetype to reflect their architecture. Low-level modelling changes UML sequence diagrams to portray qubits, quantum gates, superposition, entanglement, and measurement processes utilising stereotypes and message types to study quantum algorithms and circuits.
Practical Examples and Future Vision
Through detailed case studies using dynamic circuits and Shor's Algorithm, QuanUML demonstrated its effectiveness in modelling successful long-range entanglement.
QuanUML efficiently models dynamic quantum circuits' classical control flow integration using UML's Alt (alternative) fragment to visualise qubit initialisation, gate operations, mid-circuit measurements, and classical feed-forward logic.
QuanUML can handle sophisticated hybrid algorithms like Shor's Algorithm by mixing high-level class diagrams (using the <> archetype for quantum classes) with intricate low-level sequence diagrams. It manages complexity by modelling abstract sub-quantum computations.
QuanUML has a more comprehensive software modelling framework, deeper low-level modelling capabilities, and demonstrated element efficiency in some quantum algorithms than Q-UML and the Quantum UML Profile due to its accurate representation of multi-qubit gate control relationships.
QuanUML provides a framework for designing, visualising, and evaluating complex quantum algorithms, which the authors think will help build quantum software. Future enhancements aim to expedite development and accelerate theoretical methodologies to real-world applications. Extensions include code generation for Qiskit, Q#, Cirq, and Braket quantum computing SDKs.
This unique strategy speeds up the design of complex quantum applications and promotes cooperation in quantum computing. The shift from direct coding to structured design indicates a major change in quantum software engineering.
(via UML holds Republic Day assemblage in Kathmandu - Tramesh)

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UML holds Republic Day assemblage in Kathmandu
Supporters of the cardinal affair the CPN-UML marched through Kathmandu streets on Thursday to mark the Republic Day. The assemblage featured cultural displays and acceptable attire, with participants accustomed kharpansтАФa acceptable accept pole acclimated to backpack loadsтАФalongside allegorical swords and shields. It concluded at Bhrikutimandap, area a academic programme was actualityтАж