
General information
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Hosting OrganisationGradiant
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AddressEstrada do Vilar, 56-58
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Contact Info:
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Phone
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Emailgradiant@gradiant.org
Description
Gradiant, Spanish ICT technology centre, aims to improve the competitiveness of companies by transferring knowledge and technologies in the fields of connectivity, intelligence and security. With more than 250 professionals and 14 applied patents, Gradiant has developed more than 800 different R&D&i projects, becoming one of the main engines of innovation in Galicia. In 2025, Gradiant’s turnover reached 17 million euros, working with more than 400 clients in 30 countries over the past 17 years.
The commitment with quality is a constant from the beginning. Today Gradiant has certificates on Quality Management Systems UNE-EN ISO 9001:2015, Innovation Management Systems UNE-EN-ISO 56002:2024 and Information Security Management Systems UNE-EN ISO/IEC 27001:2022.
After sixteen years of activity, Gradiant is positioned as a technology partner for the industry, oriented to their needs in the field of ICT, contributing their national and international experience in technologies for security and privacy; processing of multimedia signals; Internet of Things; biometrics and data analytics; and advanced communications systems.
Summary of Research Services
The main research areas at Gradiant are:
Multimedia analysis: research into digital file manipulation and video analytics for the monitoring of maritime and border areas.
• Cloud-Edge Continuum: research into cloud technologies, GPU and CPU computing, FPGAs and neuromorphic computing.
• Advanced Data Management: integration of unstructured information; we participate in the development of interoperable data spaces aligned with European frameworks; we develop Privacy-Enhanced Technologies, such as homomorphic encryption for performing operations on encrypted data.
• Applied Artificial Intelligence: AI applied to cybersecurity, combining behavioural analysis with process mining and deep learning; decentralised AI solutions; and multimodal AI integrating text, video, audio and images.
• Data security: design of secure systems for IoT processes and embedded systems; data analysis for protection against anomalies; expertise in federated learning and machine learning.
• Autonomous systems: we develop local positioning systems to provide location services and implement algorithms.
• Communications systems: Development of SIGINT technologies capable of detecting, identifying and analysing emissions in the radio spectrum.
• Micro- and nanoelectronics technologies: Development of custom hardware such as ASICs, SoCs and FPGAs
• Cybersecurity technologies: We incorporate user behaviour analysis, process mining and reinforcement learning.
• Language Technologies: We investigate text generation and analysis in natural language processing for information extraction and classification.
• Quantum Technologies: Covering both software and hardware for application in quantum sensing, metrology, computing and communications.
• Photonics Technologies: Developing photonic signal and processing circuits.
Technology Capabilities
Gradiant capabilities rely on 3 different fields: Connectivity, Communications and Inteligence.
Gradiant develops technologies that enable seamless and secure connectivity across terrestrial and non-terrestrial networks. Its expertise includes 5G and 6G networks, satellite communications, IoT ecosystems, cloud-edge architectures, and the integration of next-generation communication infrastructures.
The organization designs advanced communication systems for complex and mission-critical environments. Its capabilities cover wireless communications, signal intelligence (SIGINT), spectrum monitoring and management, integrated sensing and communications (ISAC), broadcast and satellite systems, and secure communication technologies.
Gradiant leverages Artificial Intelligence and advanced data analytics to transform data into actionable insights. Its capabilities include machine learning, computer vision, multimedia analytics, natural language processing, intelligent automation, predictive analytics, and autonomous decision-support systems. These technologies are applied to improve operational efficiency, security, monitoring, and decision-making across multiple industries.
Main equipment or Facilities
General laboratory capabilities and infrastructure
Gradiant has an on-premises fully equipped quantum optics laboratory, for development, testing and characterisation of hardware for quantum sensing and quantum communications It also possesses optical benches to insulate from mechanical perturbations. The laboratory is capable of sustaining the ideal conditions to work with atomic-based technologies (Rydberg atoms, cold atoms), solid state technologies (diamond NV centres and other colour defects) and photonic-based technologies (integrated photonics).
Gradiant is equipped with an infrastructure, based on NVIDIA GPU clusters, specifically designed to facilitate the training and testing of Machine Learning algorithms. This infrastructure, owned by Gradiant, is hosted by CESGA, Galicia Supercomputing Technological Center. It has 2 nodes, both of them with 64 GB of RAM, 16 cores, and 32 threads, Node 1 with three Nvidia GPUs (GeForce RTX 2080 Ti, NVIDIA TITAN RTX, and GeForce RTX 3090), and Node 2 with four (2 x GeForce RTX 3090 and 2 x GeForce RTX 2080 Ti).
The 5G cybersecurity laboratory is designed to validate 5G network components, develop and validate new technologies, and assess cybersecurity in sector-specific applications and services that utilise 5G technology, such as Smart Transport. Furthermore, this laboratory focuses on identifying potential vulnerabilities and threats by conducting cybersecurity attack simulations and automating responses to them, thereby strengthening the network infrastructure. The laboratory utilises a range of advanced technologies to ensure the security, privacy and integrity of information on 5G networks.
The laboratory also uses Large Language Models (LLM) to simulate advanced attacks and automate penetration testing. Furthermore, these models facilitate the orchestration of incident response, the rapid analysis of security data and the creation of detailed reports on security incidents.