General, cost effective technological expertise in the field of plant embryo cultivation, conservation and pelleting processes for living plant material
Experimental research and development of malaria vaccine and serum
Study, development and industrialisation of integrated circuit non-volatile memory (eprom) with storage capacity of 4 mbit. Feasibility study of technology and architecture of capacity 16 mbit
To extend the range of usefulness of animal cell cultures introducing processes which allow mass production to take place using animal cell cultures as a starting material within a continuous process
Research and development of absorption heat pumps and heat transformers for industrial use and high power applications. prototypes to be adapted into market product
Mobile robot development, industrialisation and sale for tele-surveillance purposes
50w to 4kw co laser-systems, beam-delivery and applications r & d. The work includes optical-fibre development and medical applications research (at low powers).
Technological developments resulting from the collaboration will result in improved products from which mammalian cells may be cultivated and will also enable production costs of such products as vaccines and monoclonal antibodies
New development of vlsi technology to enable the design and manufacture of integrated circuits of high complexity (100,000 mos transistors) and small geometrical features.
Submicron silicon process technology, manufacturing and design capability by 1995. Technical targets: very high complexity (10-100,000,000 transistors/chip); very high speed integrated circuits (5 gbit/s).