Semiconductors are big business. In fact, chips represent $30 billion of Samsung’s estimated $140 billion revenue. Despite their rivalry in Smartphones, Apple is Samsung''s largest applications processor customer and uses various components such as semiconductors and display products (see the Quarterly Application Processor Market Share Tracker from Strategy Analytics). “Samsung semiconductor is not fighting against Apple”, says Dr. Stephen Woo, President of Samsung Electronics Device Solutions. "We innovate by maintaining the start-up spirit". Dr. Woo addressed Samsung''s approach to innovation last week at the HTIA Conference in Jerusalem and will make a similar keynote at CES.
After a disastrous M&A experience with California-based AST in 1994, Samsung waited 13 years for its next non-Korean acquisition- Israeli image sensor company, Transchip. This union has been more successful. Currently, Samsung has two Israeli R&D Centers, one for semiconductors and another concentrating on telecoms, employing about 400 people. The Ramat Gan facility focuses on imaging solutions using CMOS Image Sensors (CIS), SoC (System on Chip), Digital imaging processors, Image Signal Processing (ISP) engines for CIS and software/hardware designs. For its part, Apple purchased local SSD player Anobit
last year for nearly half a billion dollars and promptly opened an R&D Center in Haifa, home to Israel’s leading technical university, the Technion
"Samsung is a global company, and we appreciate contributions from our R&D center in Israel”. One example is “the recently launched Galaxy Camera,
which is using a camera sensor developed by Samsung''s Israeli R&D center, called SIRC, located at Ramat Gan". Image sensors, the key technology enabler for camera phones, digital cameras, video cameras, PC cameras, and security/surveillance, “are an important source of competitive advantage”. Research company GII
predicts 2.44 billion handsets with cameras will be sold this year, 84.8% of all mobile phones. Samsung recently launched its flagship Galaxy S3
Android handset, which uses a similar image processor. Company executives expect sales this year of 30 million Galaxy S3 units.
“Customers need very high performance dual core and SoC (system on chip) solutions that better enable applications but reduce power consumption. On the architecture side, it is like a hybrid car, which uses electric power in the city but needs an engine on the highway. For those applications in which high performance is not required, we use low power consumption processors. When needed, we can offer application providers the right match for high power consuming applications. On the processor side, this year Samsung will make the world’s most number of 32/28 namometer wafers, which further reduces power usage”.
At Samsung since 2003, Dr. Woo was appointed General Manager of the System LSI Business in 2008. He currently oversees all activities surrounding the System LSI Business, including logic solutions that provide next-generation features in consumer and mobile products. Samsung’s System LSI Business dominates global market share in several product categories, including mobile application processors for Smartphones, complementary metal oxide silicon-based (CMOS) camera image sensors, flat panel display driver ICs (integrated circuits) and smart card ICs for SIM (Subscriber Identity Module) cards.
Much of Dr. Woo’s role is to enable “a lot of cross-fertilization within our R&D Centers around the world” and encourage a culture of innovation. “People think of Samsung as this big company, but we really aren’t. We innovate by maintaining the start-up spirit”.