Samsung Group, South Korea’s tech giant, announced on Tuesday that it will invest $205 billion (240 trillion won) in their semiconductor, biopharmaceuticals and telecommunications units over the next three years to enhance its global presence and lead in new industries such as next-generation telecommunication and robotics.
The investment will be led by Samsung affiliates including Samsung Electronics and Samsung Biologics. It also unveiled mergers and acquisitions plan to fortify its technology and market leadership.
With setting aside $154.3 billion (180 trillion won) for home ground, Samsung expects to create 40,000 new jobs by 2023 through the investment.
This announcement comes days after Samsung Electronics vice chairman Jay Y. Lee was released on parole on 13 August right before South Korea’s Liberation Day. People speculated Samsung would be able to move forward with major investment once he was freed from prison, according to local media reports.
Samsung’s latest investment will be used for semiconductor, biopharmaceuticals and the next-generation telco units, according to the company’s statement.
Samsung Electronics plans to develop advanced process technology and expand the business with artificial intelligence (AI) and data centers for its system semiconductors while it will focus on up-to-date technology such as EUV-based sub14-nanometer DRAM and over 200-layer V-NAND products for the memory business. Samsung had announced in May the company will invest $151 billion in its logic chip and foundry sector, to be the top logic chip maker, by 2030.
Samsung Biologics and Samsung Bioepis plans to establish two new plants, in addition to a fourth factory that is under construction, for expanding the contract development manufacturing organization (CDMO) business, the statement said.
South Korea’s largest conglomerate also will support its ongoing R&D in new technologies and emerging application in areas such as AI and robotics along with the next generation OLED, quantum-dot display and high-energy density batteries development.