1) In the frame of a collaboration between IHEP (Protvino, Russia) and GSI (Darmstadt, Germany) IHEP developed, produced and tested a superconducting model dipole. The main parameters of the dipole are a two-layer coil, 100 mm inner coil diameter and 1 m length. The magnet is designed for 6 T central magnetic field with a 1 T/s operating field ramp rate. The nominal operating current of 6720 A (6 T central magnetic field) was reached after the third quench and critical current of 7738 A (6.8 T central magnetic field) was reached after the eighteenth quench. The critical current of the dipole did not reduce up to ramp rate of 1300 A/s (1.15 T/s). AC losses for different magnetic field cycles were measured too. The results of the magnet tests were presented at MT 21 [1]. The magnet was delivered to GSI in May 2009. 2) In the frame of collaboration in the FAIR project IHEP also has finished the design of a fast cycling quadrupole, which will be assembled together with corrector magnets in an united cryostat. The quadrupole creates a 45 T/m central gradient in 105 mm aperture [2]. A possible simple quench protection scheme was developed, too. 3) Engineering drawings of the tooling for the production of a SIS300 prototype quadruple were developed and manufacture of the tooling was begun. This quadrupole is intended as the main unit for the SIS 300 ring. Its 1-layer is divided in three blocks and will be wound with a cored 19 strands cable. 4) The cabling machine at IHEP was modernized and 35 m of cable with 19 superconducting strands and a 316 L stainless steel core was produced by IHEP (Fig.1). The SC wire of 0.825 mm diameter for the cable was produced by Bochvar institute. The cable will be used for the manufacture of a trial winding of the SIS300 prototype quadruple in the beginning of next year. 5) A device for magnetic measurements of the SIS300 prototype quadruple was developed.