on Monday last time below 100 and will close @
99+/- i.e the rule
of 4 trading dog days that it
will stay below 10 day M.A.
technical data it appears that On Tuesday it will test 10
day M.A and once it crosses and closes above 10 day
M.A. then all system to go as target price
Keep in mind it might also cross 100 on Monday if some
unfold otherwise no later than tuesday it will happen.
serious food for thought.
ownership now reported at 8.339 million shares or
anyone remember the # of shares held by
Total # of institutions owning has increased from 83 to
institutional net purchases in last 90 days +2.83 million
short interest 1.9 million shares or three times
average daily volume.
the trading shares are drying up
i can't believe it. once again, we have the perfect
set up for a big short squeeze and share price run
Thank you for the informative post!!!!!
Unclewest, can direct me the place where I can find the
information on updated news regarding institutional ownership
for RMBS or other public corporations?
ok reh, thanks.
that means institutions
and insiders, all presumably, long term holders own
over 50% of the shares right now. institutional buying
in the last 90 days = almost 3 million shares. at
this rate we run out of shares before the end of 1999.
ok guys and gals, knowing this, my rmbs 300 in 1999
is starting to look a little light wouldn't you
Faster processors, the Accelerated Graphics Port,
and faster serial buses are the platform ingredients
driving the need for higher system memory bandwidth. As
processor performance increases and more and more
multimedia and 3D functions are incorporated, high-bandwidth
memories are essential to sustaining system performance.
Intel's goal is to ensure that memory subsystems continue
to support evolving platform requirements through
1999 and beyond. It is especially important to ensure
that the memory roadmap evolves together with the
performance roadmaps for processors, I/O and graphics. To
meet this goal, Intel continuously works with industry
memory vendors to set leadership directions in the
adoption and support of new memory technologies (EDO,
SDRAM, Direct RDRAM) paving the way for faster, cheaper
The current state-of-the-art
memory technology is synchronous DRAM, or SDRAM. Through
1998 and the beginning of 1999, mainstream memory
bandwidth requirements will be satisfied by 100-MHz SDRAM
performance. In parallel with Intel� Chipset product
development, Intel worked with leading DRAM vendors providing
the specifications to facilitate the development of
SDRAM components and memory modules before the
platforms were introduced. This process achieved industry
adoption of 100-MHz SDRAM to complement new, faster
Pentium� II processor-based systems. Beginning in 1999,
the PC platform will start using Direct RDRAM to
further enhance the interactive lifelike visual
experiences on the standard PC platform, including
workstation-quality 3D graphics and consumer-quality video.
Video, richer 3D applications and the natural adaptation
of the PC platform to the Visual Connected PC and
Constant Computing environment keep evolving the PC
architecture. New PC designs that will be based on faster
Pentium II processors are driving the need for
ever-higher system memory bandwidth. Intel's leadership and
industry participation are delivering new memory
technologies which enable the development of higher
Direct RDRAM technology is needed in
the 1999 time frame to further support PC
applications that will provide interactive, lifelike
experiences. Intel and Rambus are working together to extend
Rambus technology to meet PC platform memory
requirements for 1999 and beyond. At the September 1998 Intel
Developers Forum (IDF), Intel and Rambus demonstrated the
technology using an Intel test chip. The demo focussed on
showing the very clean signals running at over 400 MHz in
various trace configurations. During the presentation
sessions Intel and Rambus architects explained how the
fast data rates are achieved, and what system design
considerations the PC motherboard designer has to be aware of.
In November 1998, Intel showed a technology demo of
a PC system with Direct RDRAM to press and analyst.
This signified a major milestone on the way to full
production in 1999.
Intel has delivered the PC100 SDRAM
Component Specification, as well as the Serial Presence
Detect and 100-MHz DIMM specifications to major vendors
and OEMs. These specifications as well as "Gerber"
files were updated in February 1998, on the Intel
Developer Web site. They provide the information needed to
develop memory modules to support the latest Intel�
platforms through 1998 and the beginning of 1999. The
latest addition is a specification for "Low Cost 8Mx8
based Unbuffered PC SDRAM DIMM," that allows for single
sided assembly for 64-MB modules.
Direct RDRAM is
on track for a 1999 ramp. PC OEMs are encouraged to
design systems that can support multiple speed versions
of RDRAM, in particular 300 MHz and 400 MHz. This
will allow for the most cost and availability
flexibility. PC OEMs and DRAM vendors should continue the
process to further discuss the anticipated product ramp
This is what they said in Dec. about their
contemplated uses of RMBS in their products:
ORANGE, California, December 14, 1998 - Transcend
Information Inc., one of the world's largest OEM memory
manufacturers, has entered into an agreement with Rambus Inc. to
produce Direct Rambus RIMM modules.
Intel, with the
endorsement of leading PC OEMs, is enabling Rambus(circle-R)
memory for use in performance desktop PCs in
Transcend's agreement clears the way for its full
implementation of Rambus architecture in Transcend's
award-winning product line. Rambus high-bandwidth memory RIMM
module enjoys broad industry support. System
applications for Rambus
RIMM modules include personal
computers, workstations and servers. Rambus RIMM modules
will provide up to three times the effective
performance over today's PC100 SDRAM DIMM modules. At the
same time, Rambus RIMM modules use
industry assemblies similar to those of today's DIMM
memory modules. For PC main memory, a Direct Rambus
memory system will fit within the same physical, power
and thermal profiles of a similarly configured
100-MHz synchronous DRAM memory