Rising Cyber Threats Propel Saudi Arabia’s Cybersecurity Market to New Heights by 2030

The Saudi Arabian cybersecurity market will generate an estimated revenue of USD 672.4 million in 2024, which is expected to witness a CAGR of 14.0% during 2024–2030, to reach USD 1,477.2 million by 2030. Some of the primary factors that are expected to enhance the growth of this market include further digitalization, government policies, and the use of Vision 2030.


Saudi Arabia’s Vision 2030 is intended to introduce a variety of changes and diversifications that will help the country to decrease the dependence on the oil and gas sector by investing in infrastructure, e-commerce, healthcare, and innovative technologies. 

This is due to the fact that these industries are practically vulnerable to cyber attacks and traditional ways of protection are inadequate in recognizing new wave cyber threats. AI and machine learning, IoT and security, Information Security, and quantum computing are some of the new technologies in cybersecurity. 

Machine learning and artificial intelligence are the two most preferred technologies among them due to their ability to offer deep data analysis in conjunction with comprehensive real-time threat detection. This results into branding of the cyberspace and consequently detection of the lurking cyber threats in an early and accurate manner.

On- line privacy and security are a high priority for Saudi Arabian citizens as well as information that is considered confidential for the country. The following are the government laws and regulations they include but not limited to PDPL, Anti-Cyber Crime Law, SAMA CSF and NDMA.

Key Insights 

 Software is the largest category, holding a share of 55% in 2024.

 Advanced Metering Infrastructure (AMI) is the largest subcategory within software.

 AMI includes communication networks, data management systems, and smart meters.

 Enables bi-directional energy flow and integrates Distributed Energy Resources (DERs).

 Used for measuring and optimizing renewable energy transmission.

 Hardware category is significantly growing.

 Smart meters are rapidly growing within hardware.

 Provide insights about power consumption to consumers and utilities.

 Distribution is the largest category, holding a share of 45% in 2024.

 Fastest-growing category, advancing at a CAGR of 18.7% during 2024–2030.

 Power plants generate high voltages; low-voltage distribution lines reduce losses.

 Power distribution networks include feeders, substations, and transformers.

 Smart grid network brings intelligence to the distribution process.

 Wireless category is the faster-growing category.

 Advancing at a CAGR of 18.8% during 2024–2030.

 Most-advanced technology for communication at substations.

 Enables safe, dependable, low-latency bi-directional transfer infrastructure.

 Cost-effective, secure transmission of data, higher bandwidth.

 Al-Riyadh is the fastest-growing province.

 Advancing at a CAGR of 18.9% during 2024–2030.

 Rapid construction of commercial and residential buildings driving smart meter deployment.

 Al-Jouf province is the largest in terms of smart grid network usage.

 Presence of a huge solar power plant driving extensive use of smart grid networks.

 ENOWA, an energy utility company headquartered in Saudi Arabia, announced a high-voltage smart grid for NEOM in December 2023.

 CHINT showcased advanced microgrid solutions for large industrial parks at the Saudi Arabia Smart Grid Conference (SASG 2023) in December 2023.

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Model-Based Enterprises Surge: Industry Insights and Growth Projections Through 2030

The market for model-based enterprises (MBEs) is projected to generate USD 13.9 billion in revenue in 2024 and is predicted to grow at a CAGR of 15.0% from 2024 to 2030, reaching USD 32.1 billion. The primary drivers of this market's expansion are the changing demands and difficulties faced by businesses in meeting client expectations, which push them to accept new strategies and technological advancements to increase productivity and efficiency. The market is also driven by the expansion of high-quality industries, including aerospace and automotive, that must adhere to strict government safety regulations, as well as by consumers' growing awareness of improved products.

With its digital 3D models that offer information and a visual depiction of every step of a product's lifespan, the MBE technique is applied from manufacture to delivery. Adopting this approach will increase teamwork, reduce errors, improve traceability, and improve the accuracy of product data.



Key Insights

·         As Industry 4.0 continues to gain traction globally, manufacturers are actively devising strategies to integrate its guiding principles and gain long-term benefits. A key component of creating smart manufacturing is implementing the MBE approach.

·         Developing smarter, more sustainable, and more efficient manufacturing and product development processes can emerge from this integration, which can lead to change in industries.

·         By eliminating outmoded functionality, manufacturing software is constantly being updated to include new features.

·         The IoT adoption makes it easier to integrate developing technologies and provides large volumes of data for a variety of operational activities. This makes it possible to improve manufacturing, product development, and overall operational performance.

·         The current procedures, processes, and work practices need to be modified in order to transition from traditional drawing methods to MBE.

·         This involves modifying the company's practices and culture, which makes MBE implementation more difficult.

·         In addition, a significant investment in training and updates to hardware and software are needed for its implementation.

·         The design category will hold 40.0% of the market share, which is the largest.

·         Traditional 2D engineering drawings are mostly replaced by 3D computer-aided design (CAD) models as the source of all additional information throughout the product lifecycle.

·         This model serves as the foundation for the entire model-based engineering process and offers a thorough product definition, visualization, and model-based manufacturing.

·         With a 35% share in 2024, aerospace and defense is the largest category. This is because of the intricacy of the goods, the necessity for innovation, the adoption of digital technology in the aerospace and defense sectors, and the potential for cost reductions with the MBE method.

·         By 2024, North America will have the largest market share, at 45%. This is because the U.S. generally implements advanced technologies first worldwide.

·         Some important aspects contributing to the growth of this market include the well-established aerospace sector, strong technological foundations, supporting laws, and strict product quality requirements.

·         Prominent firms that provide MBE solutions that are easily integrated into industry 4.0 processes are based in this region, such as Autodesk, GE, and PTC.

·  With a 15.5% CAGR through 2030, APAC is the region with the fastest growth. This is due to the expanding aerospace industry, fast urbanization, and MBE-focused environment. 

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