Code reviews are vital for ensuring good code quality. They serve as one of our last lines of defense against bugs and subpar code reaching production.
Yet, they often turn into annoying tasks riddled with frustration, hostility, unclear feedback and lack of standards. How can we improve this crucial process?
In this session we will cover:
- The Art of Effective Code Reviews
- Streamlining the Review Process
- Elevating Reviews with Automated Tools
By the end of this presentation, you'll have the knowledge on how to organize and improve your code review proces
Exploring Innovations in Data Repository Solutions - Insights from the U.S. G...Globus
The U.S. Geological Survey (USGS) has made substantial investments in meeting evolving scientific, technical, and policy driven demands on storing, managing, and delivering data. As these demands continue to grow in complexity and scale, the USGS must continue to explore innovative solutions to improve its management, curation, sharing, delivering, and preservation approaches for large-scale research data. Supporting these needs, the USGS has partnered with the University of Chicago-Globus to research and develop advanced repository components and workflows leveraging its current investment in Globus. The primary outcome of this partnership includes the development of a prototype enterprise repository, driven by USGS Data Release requirements, through exploration and implementation of the entire suite of the Globus platform offerings, including Globus Flow, Globus Auth, Globus Transfer, and Globus Search. This presentation will provide insights into this research partnership, introduce the unique requirements and challenges being addressed and provide relevant project progress.
First Steps with Globus Compute Multi-User EndpointsGlobus
In this presentation we will share our experiences around getting started with the Globus Compute multi-user endpoint. Working with the Pharmacology group at the University of Auckland, we have previously written an application using Globus Compute that can offload computationally expensive steps in the researcher's workflows, which they wish to manage from their familiar Windows environments, onto the NeSI (New Zealand eScience Infrastructure) cluster. Some of the challenges we have encountered were that each researcher had to set up and manage their own single-user globus compute endpoint and that the workloads had varying resource requirements (CPUs, memory and wall time) between different runs. We hope that the multi-user endpoint will help to address these challenges and share an update on our progress here.
Atelier - Innover avec l’IA Générative et les graphes de connaissancesNeo4j
Atelier - Innover avec l’IA Générative et les graphes de connaissances
Allez au-delà du battage médiatique autour de l’IA et découvrez des techniques pratiques pour utiliser l’IA de manière responsable à travers les données de votre organisation. Explorez comment utiliser les graphes de connaissances pour augmenter la précision, la transparence et la capacité d’explication dans les systèmes d’IA générative. Vous partirez avec une expérience pratique combinant les relations entre les données et les LLM pour apporter du contexte spécifique à votre domaine et améliorer votre raisonnement.
Amenez votre ordinateur portable et nous vous guiderons sur la mise en place de votre propre pile d’IA générative, en vous fournissant des exemples pratiques et codés pour démarrer en quelques minutes.
OpenMetadata Community Meeting - 5th June 2024OpenMetadata
The OpenMetadata Community Meeting was held on June 5th, 2024. In this meeting, we discussed about the data quality capabilities that are integrated with the Incident Manager, providing a complete solution to handle your data observability needs. Watch the end-to-end demo of the data quality features.
* How to run your own data quality framework
* What is the performance impact of running data quality frameworks
* How to run the test cases in your own ETL pipelines
* How the Incident Manager is integrated
* Get notified with alerts when test cases fail
Watch the meeting recording here - https://www.youtube.com/watch?v=UbNOje0kf6E
We describe the deployment and use of Globus Compute for remote computation. This content is aimed at researchers who wish to compute on remote resources using a unified programming interface, as well as system administrators who will deploy and operate Globus Compute services on their research computing infrastructure.
Understanding Globus Data Transfers with NetSageGlobus
NetSage is an open privacy-aware network measurement, analysis, and visualization service designed to help end-users visualize and reason about large data transfers. NetSage traditionally has used a combination of passive measurements, including SNMP and flow data, as well as active measurements, mainly perfSONAR, to provide longitudinal network performance data visualization. It has been deployed by dozens of networks world wide, and is supported domestically by the Engagement and Performance Operations Center (EPOC), NSF #2328479. We have recently expanded the NetSage data sources to include logs for Globus data transfers, following the same privacy-preserving approach as for Flow data. Using the logs for the Texas Advanced Computing Center (TACC) as an example, this talk will walk through several different example use cases that NetSage can answer, including: Who is using Globus to share data with my institution, and what kind of performance are they able to achieve? How many transfers has Globus supported for us? Which sites are we sharing the most data with, and how is that changing over time? How is my site using Globus to move data internally, and what kind of performance do we see for those transfers? What percentage of data transfers at my institution used Globus, and how did the overall data transfer performance compare to the Globus users?
GraphSummit Paris - The art of the possible with Graph TechnologyNeo4j
Sudhir Hasbe, Chief Product Officer, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Developing Distributed High-performance Computing Capabilities of an Open Sci...Globus
COVID-19 had an unprecedented impact on scientific collaboration. The pandemic and its broad response from the scientific community has forged new relationships among public health practitioners, mathematical modelers, and scientific computing specialists, while revealing critical gaps in exploiting advanced computing systems to support urgent decision making. Informed by our team’s work in applying high-performance computing in support of public health decision makers during the COVID-19 pandemic, we present how Globus technologies are enabling the development of an open science platform for robust epidemic analysis, with the goal of collaborative, secure, distributed, on-demand, and fast time-to-solution analyses to support public health.
Navigating the Metaverse: A Journey into Virtual Evolution"Donna Lenk
Join us for an exploration of the Metaverse's evolution, where innovation meets imagination. Discover new dimensions of virtual events, engage with thought-provoking discussions, and witness the transformative power of digital realms."
Enhancing Research Orchestration Capabilities at ORNL.pdfGlobus
Cross-facility research orchestration comes with ever-changing constraints regarding the availability and suitability of various compute and data resources. In short, a flexible data and processing fabric is needed to enable the dynamic redirection of data and compute tasks throughout the lifecycle of an experiment. In this talk, we illustrate how we easily leveraged Globus services to instrument the ACE research testbed at the Oak Ridge Leadership Computing Facility with flexible data and task orchestration capabilities.
Providing Globus Services to Users of JASMIN for Environmental Data AnalysisGlobus
JASMIN is the UK’s high-performance data analysis platform for environmental science, operated by STFC on behalf of the UK Natural Environment Research Council (NERC). In addition to its role in hosting the CEDA Archive (NERC’s long-term repository for climate, atmospheric science & Earth observation data in the UK), JASMIN provides a collaborative platform to a community of around 2,000 scientists in the UK and beyond, providing nearly 400 environmental science projects with working space, compute resources and tools to facilitate their work. High-performance data transfer into and out of JASMIN has always been a key feature, with many scientists bringing model outputs from supercomputers elsewhere in the UK, to analyse against observational or other model data in the CEDA Archive. A growing number of JASMIN users are now realising the benefits of using the Globus service to provide reliable and efficient data movement and other tasks in this and other contexts. Further use cases involve long-distance (intercontinental) transfers to and from JASMIN, and collecting results from a mobile atmospheric radar system, pushing data to JASMIN via a lightweight Globus deployment. We provide details of how Globus fits into our current infrastructure, our experience of the recent migration to GCSv5.4, and of our interest in developing use of the wider ecosystem of Globus services for the benefit of our user community.
Unleash Unlimited Potential with One-Time Purchase
BoxLang is more than just a language; it's a community. By choosing a Visionary License, you're not just investing in your success, you're actively contributing to the ongoing development and support of BoxLang.
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
A Study of Variable-Role-based Feature Enrichment in Neural Models of CodeAftab Hussain
Understanding variable roles in code has been found to be helpful by students
in learning programming -- could variable roles help deep neural models in
performing coding tasks? We do an exploratory study.
- These are slides of the talk given at InteNSE'23: The 1st International Workshop on Interpretability and Robustness in Neural Software Engineering, co-located with the 45th International Conference on Software Engineering, ICSE 2023, Melbourne Australia
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I ...Juraj Vysvader
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I didn't get rich from it but it did have 63K downloads (powered possible tens of thousands of websites).
1. PWCT 1.9 Art Documentation ( http://doublesvsoop.sourceforge.net ) 2006-2013, Mahmoud Fayed ( msfclipper@users.sourceforge.net ) _____________________________________________________________________________________ Table of contents 1 - Introduction 2 - Implementation steps 3 - Final Steps Tree 4 - Application during the runtime 1 - Introduction In this lesson we are going to learn how to use colors in our console application. 2 - Implementation Steps Fig. (1) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Set Color) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Set Color) Note : Stop typing when you see the required component is selected
2. Fig. (2) Component Browser – Select the component (Set Color) After selecting the component click Ok or press ENTER Fig. (3) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
3. Fig. (4) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Basic Input/Output) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Basic Input/Output) Note : Stop typing when you see the required component is selected Fig. (5) Component Browser – Select the component (Basic Input/Output) After selecting the component click Ok or press ENTER
4. Fig. (6) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (7) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Print Text) 3 - Select the component (Print Text To Console) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Print Text To Console) Note : Stop typing when you see the required component is selected
5. Fig. (8) Component Browser – Select the component (Print Text To Console) After selecting the component click Ok or press ENTER Fig. (9) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
6. Fig. (10) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Wait (Key/Seconds)) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Wait (Key/Seconds)) Note : Stop typing when you see the required component is selected Fig. (11) Component Browser – Select the component (Wait (Key/Seconds)) After selecting the component click Ok or press ENTER
7. Fig. (12) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (13) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Set Color) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Set Color) Note : Stop typing when you see the required component is selected
8. Fig. (14) Component Browser – Select the component (Set Color) After selecting the component click Ok or press ENTER Fig. (15) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
9. Fig. (16) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Basic Input/Output) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Basic Input/Output) Note : Stop typing when you see the required component is selected Fig. (17) Component Browser – Select the component (Basic Input/Output) After selecting the component click Ok or press ENTER
10. Fig. (18) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (19) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Print Text) 3 - Select the component (Print Text To Console) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Print Text To Console) Note : Stop typing when you see the required component is selected
11. Fig. (20) Component Browser – Select the component (Print Text To Console) After selecting the component click Ok or press ENTER Fig. (21) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
12. Fig. (22) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Wait (Key/Seconds)) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Wait (Key/Seconds)) Note : Stop typing when you see the required component is selected Fig. (23) Component Browser – Select the component (Wait (Key/Seconds)) After selecting the component click Ok or press ENTER
13. Fig. (24) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (25) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Set Color) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Set Color) Note : Stop typing when you see the required component is selected
14. Fig. (26) Component Browser – Select the component (Set Color) After selecting the component click Ok or press ENTER Fig. (27) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
15. Fig. (28) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Basic Input/Output) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Basic Input/Output) Note : Stop typing when you see the required component is selected Fig. (29) Component Browser – Select the component (Basic Input/Output) After selecting the component click Ok or press ENTER
16. Fig. (30) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (31) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Print Text) 3 - Select the component (Print Text To Console) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Print Text To Console) Note : Stop typing when you see the required component is selected
17. Fig. (32) Component Browser – Select the component (Print Text To Console) After selecting the component click Ok or press ENTER Fig. (33) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W
18. Fig. (34) Goal Desginer - Steps Tree Select the step (The First Step) We will start now new interaction process to generate new steps to our steps tree. The slow way (Using Mouse): 1 - Click Interact to open the components browser 2 - Select the domain (Console Application) 3 - Select the component (Wait (Key/Seconds)) The fast way (Using Keyboard shortcuts): 1 - Get the component using its name by typing (Wait (Key/Seconds)) Note : Stop typing when you see the required component is selected Fig. (35) Component Browser – Select the component (Wait (Key/Seconds)) After selecting the component click Ok or press ENTER
19. Fig. (36) Interaction page - Set the properties and enter the required data as in the image above Afer entering data , Click OK or press CTRL+W Fig. (37) Goal Desginer - Final Steps Tree 3 - Final Steps Tree The First Step Set Color Standard( White , Blue ) Enhanced ( Black , Black ) Unselected ( Black , Black ) Clear Screen Print text ("Blue") to console WAIT ( 1 SECONDS) Set Color Standard( White , Red ) Enhanced ( Black , Black ) Unselected ( Black , Black ) Clear Screen Print text ("Red") to console WAIT ( 3 SECONDS) Set Color Standard( White , Green ) Enhanced ( Black , Black ) Unselected ( Black , Black ) Clear Screen Print text ("Green") to console WAIT ( 3 SECONDS)
20. 4 - Application during the runtime Fig. (38) Application during the runtime Fig. (39) Application during the runtime